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idSwitch: 0 domainSwitch: 0 PACS: # content #95.30.Ft, Molecular and chemical processes and interactions (see also section 33 Molecular properties and interactions with photons; section 34 Atomic and molecular collision processes and interactions) 95.30.Cq, Elementary particle processes (see also section 26 Nuclear astrophysics) 95.30.Dr, Atomic processes and interactions (see also section 32 Atomic properties and interactions with photons; section 34 Atomic and molecular collision processes and interactions) 95.30.-kxx, Fundamental aspects of astrophysics 95.30.-k, Fundamental aspects of astrophysics 95.10.Eg, Orbit determination and improvement 95.10.Fh, Chaotic dynamics (see also 05.45.-a Nonlinear dynamics and nonlinear 95.10.-axx, Fundamental astronomy 94.80.+g, Instrumentation for aeronomy and magnetospheric studies (see also 95.55.-n Astronomical and space-research instrumentation in astronomy; 07.87.+v spaceborne and space research instruments, apparatus, and components in instruments) 95.10.Ce, Celestial mechanics (including n-body problems) (see also 45.50.Pk in classical mechanics of discrete systems) 95.10.-a, Fundamental astronomy 95., Fundamental astronomy and astrophysics; instrumentation, techniques, and astronomical observations 94.90.+m, Other topics in aeronomy and magnetospheric physics (restricted to new topics in section 94) 94.30.Jp, Ring currents 94.30.Kq, Electric fields 94.30.Lr, Magnetic storms, substorms 94.30.Ms, Magnetic pulsations 94.30.Tz, Waves: propagation and excitation 94.30.Va, Magnetosheath; interaction with interplanetary space (including solar wind) (for cosmic-ray interactions, see 13.85.Tp in elementary particle physics; see also 96.40.-z Cosmic rays-in Astronomy) 94.30.Fk, Plasma motion, convection, or circulation 94.30.Gm, Plasma instabilities 94.30.Hn, Trapped particles 94.30.Ej, Magnetic tail 94.30.Ch, Magnetospheric configuration 94.30.Di, Magnetopause 94.30.Bg, Magnetic coordinate systems 94.30.-d, Physics of the magnetosphere (for magnetospheres of the planets, see 96.35.Kx; for radiowave propagation, see 41.20.Jb in electromagnetism; see also section 52 Physics of plasmas and electric discharges) 94.30.-dxx, Physics of the magnetosphere (for magnetospheres of the planets, see 96.35.Kx; for radiowave propagation, see 41.20.Jb in electromagnetism; see also section 52 Physics of plasmas and electric discharges) 94.20.Ww, Plasma motion, convection, or circulation 94.20.Yx, Interaction between ionosphere and magnetosphere 94.20.Qq, Particle precipitation 94.20.Rr, Interactions between waves and particles 94.20.Ss, Electric fields 94.20.Tt, Ionospheric soundings 94.20.Vv, Ionospheric disturbances and modifications 94.20.Mm, Plasmasphere 94.20.Pp, Plasmapause 94.20.Kj, Polar cap ionosphere 94.20.Lk, Topside region 94.20.Ee, D region 94.20.Gg, E region 94.20.Ji, F region 94.20.Dd, Ionospheric structure (D, E, F, and topside regions) including steady-state ion densities and temperatures 94.20.Bb, Wave propagation 94.20.-yxx, Physics of the ionosphere (for ionospheres of the planets, see 96.35.Kx; for radiowave propagation, see 41.20.Jb in electromagnetism; see also section 52 Physics of plasmas and electric discharges) 94.20.-y, Physics of the ionosphere (for ionospheres of the planets, see 96.35.Kx; for radiowave propagation, see 41.20.Jb in electromagnetism; see also section 52 Physics of plasmas and electric discharges) 94.10.Gb, Absorption and scattering of radiation 94.10.Jd, Tides, waves, and winds 94.10.Lf, Convection, diffusion, mixing, turbulence, and fallout 94.10.Nh, Cosmic dust 94.10.Rk, Aurora and airglow 94.10.Fa, Atmospheric composition (atomic or molecular), chemical reactions and processes (see also 82.33.Tb Atmospheric chemistry in physical chemistry and chemical physics) 94.10.-s, Physics of the neutral atmosphere (for atmospheres of the planets, see 96.35.Hv) 94.10.Bw, General properties of the high atmosphere 94.10.Dy, Atmospheric structure, pressure, density, and temperature (stratosphere, mesosphere, thermosphere, exosphere) (see also 92.60.-e Meteorology and 92.70.-j Global change) 94., Aeronomy and magnetospheric physics 94.10.-sxx, Physics of the neutral atmosphere (for atmospheres of the planets, see 96.35.Hv) 93.85.+q, Instrumentation and techniques for geophysical research 93.65.+e, Data acquisition and storage 93.55.+z, International organizations, national and international programs 93.30.Qn, Southern Ocean 93.30.Rp, Regional seas 93.30.Sq, Polar regions 93.30.Tr, Temperate regions 93.30.Vs, Tropical regions 93.30.Pm, Pacific Ocean 93.30.Mj, Atlantic Ocean 93.30.Nk, Indian Ocean 93.30.Hf, North America 93.30.Jg, South America 93.30.Kh, Large islands (e.g., Greenland) 93.30.Li, Arctic Ocean 93.30.Fd, Australia 93.30.Ge, Europe 93.30.Db, Asia 93.30.-wxx, Information related to geographical regions 93.30.-w, Information related to geographical regions 93.30.Bz, Africa 93.30.Ca, Antarctica 92.70.Ly, Water cycles 92.90.+x, Other topics in hydrospheric and atmospheric geophysics (restricted to new topics in section 92) 93., Geophysical observations, instrumentation, and techniques 92.70.Cp, Atmosphere 92.70.Er, Biogeochemical processes 92.70.Gt, Climate dynamics 92.70.Jw, Oceans 92.70.-j, Global change (see also 92.60.-e Meteorology) 92.70.-jxx, Global change (see also 92.60.-e Meteorology) 92.60.Vb, Solar radiation 92.60.Wc, Weather analysis and prediction 92.60.Ta, Interaction of atmosphere with electromagnetic waves; propagation 92.60.Sz, Air quality and air pollution 92.60.Pw, Atmospheric electricity 92.60.Qx, Storms 92.60.Ry, Climatology 92.60.Mt, Particles and aerosols (see also 94.20.-y Physics of the ionosphere) 92.60.Nv, Cloud physics; stratus and cumulus clouds 92.60.Ls, Ionic interactions and processes 92.60.Fm, Boundary layer structure and processes 92.60.Gn, Winds and their effects 92.60.Hp, Chemical composition and chemical interactions 92.60.Jq, Water in the atmosphere (humidity, clouds, evaporation, precipitation) 92.60.Bh, General circulation 92.60.Dj, Gravity waves, tides, and compressional waves 92.60.Ek, Convection, turbulence, and diffusion 92.60.-e, Meteorology (see also 43.28.+h Aeroacoustics and atmospheric sound; 42.68.-w Atmospheric optics; 94.10.Dy Atmospheric structure, pressure, density, and temperature) 92.40.Lg, Soil moisture 92.40.Ni, Limnology 92.40.Qk, Water quality and water resources 92.40.Rm, Snow 92.40.Sn, Ice 92.40.Vq, Glaciers 92.60.-exx, Meteorology (see also 43.28.+h Aeroacoustics and atmospheric sound; 42.68.-w Atmospheric optics; 94.10.Dy Atmospheric structure, pressure, density, and temperature) 92.40.Je, Evaporation 92.40.Kf, Groundwater 92.40.Gc, Erosion and sedimentation 92.40.Ea, Precipitation 92.40.Fb, Rivers, runoff, and streamflow 92.40.Cy, Modeling; general theory 92.40.-txx, Hydrology and glaciology 92.40.-t, Hydrology and glaciology 92.20.Pz, Bacteria 92.20.Rb, Plankton 92.20.Td, Radioactivity 92.20.Ny, Marine pollution 92.20.Kv, Photochemistry 92.20.Lw, Photosynthesis 92.20.Mx, Physicochemical properties 92.20.Hs, Anoxic environments 92.20.Jt, Biological aspects of oceanography 92.20.Cm, Chemistry of the ocean 92.20.Gr, Ocean energy extraction 92.20.Bk, Aerosols 92.20.-hxx, Interdisciplinary aspects of oceanography 92.20.-h, Interdisciplinary aspects of oceanography 92.10.Yb, Hydrography (for ocean parameter estimation by acoustical methods, see 43.30.Pc -in acoustics appendix) 92.10.Wa, Sediment transport 92.10.Pt, Optical properties of sea water 92.10.Rw, Sea ice 92.10.Sx, Coastal and estuarine oceanography 92.10.Ty, Fronts and jets 92.10.Vz, Underwater sound (see also 43.30.+m in acoustics) 92.10.Ns, Fine structure and microstructure 92.10.Mr, Thermohaline structure and circulation 92.10.Jn, Seiches 92.10.Kp, Sea-air energy exchange processes 92.10.Lq, Turbulence and diffusion 92.10.Gk, El Nino 92.10.Hm, Surface waves, tides, and sea level 92.10.Ei, Coriolis effects 92.10.Fj, Dynamics of the upper ocean 92.10.Bf, Physical properties of seawater 92.10.Cg, Capillary waves 92.10.Dh, Dynamics of the deep ocean 92.10.-cxx, Physics of the oceans 92.10.-c, Physics of the oceans 91.70.Bf, Cenozoic 91.70.Dh, Mesozoic 91.70.Fj, Paleozoic 91.70.Hm, Precambrian 91.90.+p, Other topics in solid Earth physics (restricted to new topics in section 91) 92., Hydrospheric and atmospheric geophysics 91.70.-c, Information related to geologic time 91.65.Vj, Major element composition 91.70.-cxx, Information related to geologic time 91.65.Br, Geochemical cycles 91.65.Dt, Isotopic composition/chemistry 91.65.Fw, Low-temperature geochemistry 91.65.Hy, Organic geochemistry 91.65.Nd, Trace elements 91.65.Rg, Mineral occurrences and deposits 91.65.Ti, Sedimentary petrology 91.65.-n, Geophysical aspects of geology, mineralogy, and petrology (for geophysical prospecting, see 43.40.Ph-in acoustics appendix) 91.65.-nxx, Geophysical aspects of geology, mineralogy, and petrology (for geophysical prospecting, see 43.40.Ph-in acoustics appendix) 91.60.Mk, Optical properties 91.60.Pn, Magnetic and electric properties; environmental magnetism 91.60.Lj, Acoustic properties 91.60.Hg, Phase changes 91.60.Ki, Thermal properties 91.60.Dc, Creep and deformation 91.60.Ed, Crystal structure and defects 91.60.Fe, Equations of state 91.60.Gf, High-pressure behavior 91.60.-x, Physical properties of rocks and minerals (for rheological properties of geological materials, see 83.80.Nb) 91.60.Ba, Elasticity, fracture, and flow 91.60.-xxx, Physical properties of rocks and minerals (for rheological properties of geological materials, see 83.80.Nb) 91.50.Jc, Turbidity currents, sedimentation (for acoustics of sediments, see 43.30.Ma in acoustics appendix) 91.50.Ga, Bathymetry and noncoastal underwater morphology 91.45.-cxx, Physics of plate tectonics 91.45.-c, Physics of plate tectonics 91.45.Cg, Continental margins 91.45.Dh, Plate tectonics 91.45.Ei, Neotectonics 91.45.Fj, Convection currents 91.45.Pt, Slow vertical crustal movements (including isostasy and postglacial phenomena) 91.45.Qv, Tomography of plate tectonics 91.45.Sx, Relations of gravity observations to tectonics and isostasy 91.45.Ty, Folds and Folding 91.45.Vz, Fractures and faults 91.45.Yb, Pluton emplacement 91.50.-rxx, Marine geology and geophysics 91.50.-r, Marine geology and geophysics 91.50.Cw, Beach, coastal, and shelf processes 91.50.Ey, Ocean bottom processes (for ocean basin thermometry, see 43.30.Qd-in acoustics appendix) 91.40.-k, Volcanology 91.40.Ft, Eruptions 91.40.Hw, Lava 91.40.Bp, Ash deposits 91.40.Dr, Atmospheric effects (see also 92.60.Mt Particles and aerosols-in 91.35.Nm, Geochronology 91.35.Pn, Tomography of the Earth's interior (see also 91.30.-f Seismology) 91.40.-kxx, Volcanology 91.35.Lj, Composition of Earth's interior 91.35.Gf, Structure of the crust and upper mantle 91.35.Dc, Heat flow; geothermy 91.35.Ed, Structure of the Earth's interior below the upper mantle 91.30.Ks, Free oscillations (periods less than 12 hours) 91.30.Mv, Strong motions and shock waves 91.30.Nw, Tsunamis (for dynamics of oceans, see 92.10.Dh and 92.10.Fj) 91.30.Px, Phenomena related to earthquake prediction 91.30.Rz, Explosion seismology 91.30.Tb, Volcano seismology 91.30.Vc, Continental crust seismology 91.30.Ye, Oceanic crust seismology 91.35.-xxx, Earth's interior structure and properties 91.35.-x, Earth's interior structure and properties 91.35.Cb, Models of interior structure 91.30.Dk, Seismicity: space and time distribution 91.30.Fn, Surface and body waves 91.25.Mf, Reversals 91.25.Ng, Paleomagnetism 91.25.Ph, Magnetostratigraphy 91.25.Qi, Geoelectricity; electromagnetic induction and conductivity (magnetotelluric effects) 91.30.-fxx, Seismology 91.30.-f, Seismology 91.30.Bi, Seismic sources (mechanisms, magnitude, moment frequency spectrum) 91.25.Le, Time variations: diurnal to secular 91.25.Ga, Spatial variations: all harmonics and anomalies 91.25.Jc, Spatial variations attributed to sea floor spreading 91.10.Rn, Rheology of lithosphere and mantle 91.25.Ey, Interactions between exterior sources and interior properties 91.25.Dx, Archeomagnetism 91.25.-r, Geomagnetism and paleomagnetism; geoelectricity 91.25.Cw, Origins and models of the magnetic field; dynamo theories 91.25.-rxx, Geomagnetism and paleomagnetism; geoelectricity 91.10.Ws, Reference systems 91.10.Vr, Ocean/Earth/atmosphere interaction 91.10.Tq, Earth tides 91.10.Sp, Satellite orbits 91.10.Fc, Space geodetic surveys 91.10.Jf, Topography; geometric observations 91.10.Kg, Crustal movements 91.10.Lh, Photogrammetry 91.10.Nj, Rotational variations; polar wobble 91.10.Pp, Gravimetric measurements and instruments 91.10.Qm, Harmonics of the gravity potential field 90., GEOPHYSICS, ASTRONOMY, AND ASTROPHYSICS 91., Solid Earth physics 91.10.-vxx, Geodesy and gravity 91.10.-v, Geodesy and gravity 91.10.By, Mathematical geodesy; general theory 91.10.Da, Cartography 89.90.+n, Other topics in areas of applied and interdisciplinary physics(restricted to new topics in section 89) 89.75.Kd, Patterns 89.75.Da, Systems obeying scaling laws 89.75.Fb, Structures and organization in complex systems 89.75.Hc, Networks and genealogical trees 89.75.-k, Complex systems 89.75.-kxx, Complex systems 89.70.+c, Information theory and communication theory (for telecommunications, see 84.40.Ua; for optical communications, see 42.79.Sz) 89.65.Lm, Urban planning and construction 89.65.Ef, Social organizations; anthropology 89.65.Gh, Economics; econophysics, financial markets, business and management 89.65.-sxx, Social and economic systems 89.65.-s, Social and economic systems 89.65.Cd, Demographic studies 89.60.Ec, Environmental safety 89.60.Fe, Environmental regulations 89.60.Gg, Impact of natural and man-made disasters 89.60.-k, Environmental studies (for ecology, see 87.23.-n in biological and medical physics) 89.40.Bb, Land transportation 89.40.Cc, Water transportation 89.40.Dd, Air transporation 89.60.-kxx, Environmental studies (for ecology, see 87.23.-n in biological and medical physics) 89.40.-a, Transportation 89.40.-axx, Transportation 89.30.Ee, Hydroelectric, hydrothermal, geothermal and wind power 89.30.Gg, Nuclear fission power (for fission reactors, see 28.41.-i and 28.50.-k in nuclear physics) 89.30.Jj, Nuclear fusion power (for fusion reactors, see 28.52.-s in nuclear 89.30.Cc, Solar power 89.30.Aa, Fossil fuels 89.30.-g, Energy resources (see also 84.60.-h Direct energy conversion and storage) 89.20.Kk, Engineering (for electrochemical engineering, see 82.47.Wx) 89.30.-gxx, Energy resources (see also 84.60.-h Direct energy conversion and storage) 89.20.Hh, World Wide Web, Internet 89.20.Ff, Computer science and technology 89.20.-a, Interdisciplinary applications of physics 89.20.Bb, Industrial and technological research and development 89.20.Dd, Military technology and weapons systems; arms control 89.20.-axx, Interdisciplinary applications of physics 89., Other areas of applied and interdisciplinary physics 87.80.Xa, Neural engineering 87.83.+a, Biomedical applications of nanotechnology 87.90.+y, Other topics in biological and medical physics (restricted to new topics in section 87) 87.80.Vt, Dynamical, regulatory, and integrative biology 87.80.Tq, Biological signal processing and instrumentation 87.80.Pa, Morphometry and stereology 87.80.Rb, Tissue and cellular engineering and biotechnology 87.80.-y, Biological techniques and instrumentation; biomedical engineering 87.80.Cc, Optical trapping 87.80.Fe, Micromanipulators 87.80.Jg, Patch clamping 87.80.Mj, Micromachining 87.80.-yxx, Biological techniques and instrumentation; biomedical engineering 87.68.+z, Biomaterials and biological interfaces 87.66.Ff, Chemical dosimetry 87.66.Jj, Ionization dosimetry 87.66.Na, Calorimetric dosimetry 87.66.Pm, Solid state detectors 87.66.Sq, Thermoluminescence, bioluminescence, etc. 87.66.Uv, Magnetic resonance 87.66.Xa, Phantoms 87.66.-axx, Radiation measurement 87.66.-a, Radiation measurement 87.66.Cd, Films: silver bromide based, radiochromic, etc. 87.65.+y, Aerospace bio- and medical physics (effects of accelerations, weightlessness, and space environment) 87.64.Xx, Near-field scanning optical microscopy 87.64.Vv, Multiphoton microscopy 87.64.Tt, Confocal microscopy 87.64.Pj, Mössbauer spectroscopy 87.64.Rr, Light microscopy: bright-field, dark-field, phase contrast, DIC 87.64.Ni, Optical absorption, magnetic circular dichroism, and fluorescence 87.64.Lg, Electron and photoelectron spectroscopy 87.64.Je, Infrared and Raman spectroscopy 87.64.Hd, EPR and NMR spectroscopy 87.64.Gb, X-ray spectroscopy (see also 87.64.Fb EXAFS spectroscopy) 87.64.Fb, EXAFS spectroscopy 87.64.Ee, Electron microscopy 87.64.Dz, Scanning tunneling and atomic force microscopy 87.64.Cc, Scattering of visible, uv, and infrared radiation 87.64.Aa, Computer simulation 87.64.Bx, Electron, neutron and x-ray diffraction and scattering 87.64.-t, Spectroscopic and microscopic techniques in biophysics and medical physics (for spectrometers, see section 07 Instruments, apparatus, and components common to several branches of physics and astronomy) 87.63.Lk, Visible radiation: diaphanography, transillumination, laser imaging 87.63.Pn, Electrical impedance tomography (EIT) 87.64.-txx, Spectroscopic and microscopic techniques in biophysics and medical physics (for spectrometers, see section 07 Instruments, apparatus, and components common to several branches of physics and astronomy) 87.63.Df, Ultrasonography 87.63.Hg, Thermography 87.63.-dxx, Non-ionizing radiation equipment and techniques 87.63.-d, Non-ionizing radiation equipment and techniques 87.59.Jq, Transmission imaging 87.59.Ls, Bone densitometry 87.61.-cxx, Magnetic resonance imaging 87.61.-c, Magnetic resonance imaging 87.61.Cd, Pulse sequences for imaging 87.61.Ff, Instrumentation 87.61.Lh, Angiography and macroscopic flow estimation 87.61.Pk, Clinical imaging studies 87.62.+n, Medical imaging equipment 87.59.Fm, Computed tomography (CT) 87.59.Hp, Digital radiography 87.59.Ek, Mammography 87.59.-e, X-ray imaging 87.59.Bh, X-ray radiography 87.59.Ci, Fluoroscopy 87.59.Dj, Angiography 87.59.-exx, X-ray imaging 87.58.Xs, Bone densitometry 87.58.Vr, Quantitative measurements and scanning 87.58.Sp, Dosimetry 87.58.Pm, Scintillation cameras 87.58.Ji, Radiopharmaceuticals 87.58.Mj, Digital imaging 87.58.Fg, Positron emission tomography (PET) 87.58.-b, Nuclear medicine imaging, dosimetry, labeling, metabolic studies 87.58.Ce, Single photon emission computed tomography (SPECT) 87.58.-bxx, Nuclear medicine imaging, dosimetry, labeling, metabolic studies 87.57.Gg, Image reconstruction and registration 87.57.Nk, Image analysis 87.57.Ra, Computer-aided diagnosis 87.57.Ce, Image quality: contrast, resolution, noise, etc. 87.57.-s, Medical imaging: general 87.54.Dt, Electrotherapy 87.54.Fj, Photodynamic therapy 87.54.Hk, Sound and ultrasound therapy/lithotripsy 87.56.-vxx, Radiation therapy equipment 87.56.-v, Radiation therapy equipment 87.56.By, Radiation generators 87.56.Da, Ancillary equipment 87.56.Fc, Quality assurance equipment 87.57.-sxx, Medical imaging: general 87.54.-n, Non-ionizing radiation therapy physics 87.54.Br, Thermotherapy (hyperthermia and cryogenic therapy) 87.53.Xd, Quality assurance in radiotherapy 87.54.-nxx, Non-ionizing radiation therapy physics 87.53.Wz, Monte Carlo applications 87.53.Vb, Simulation 87.53.Tf, Treatment planning, optimization, tissue response factors, and dose-volume analysis 87.53.Pb, Proton, neutron, and heavier particle dosimetry: theory and algorithms 87.53.Uv, Collimation 87.53.Qc, Proton, neutron, and heavier particle dosimetry: measurements 87.53.Rd, Microdosimetry 87.53.St, Record and verify systems and applications 87.53.Ly, Stereotactic radiosurgery 87.53.Mr, Beam intensity modification: wedges, compensators 87.53.Na, Radioimmunotherapy 87.53.Oq, Portal imaging in therapy 87.53.Hv, Electron and positron dosimetry: measurements 87.53.Jw, Brachytherapy 87.53.Kn, Conformal radiation treatment 87.53.Bn, Photon dosimetry: theory and algorithms 87.53.Dq, Photon dosimetry: measurements 87.53.Fs, Electron and positron dosimetry: theory and algorithms 87.53.-j, Ionizing-radiation therapy physics 87.52.Ga, Low LET: associated neutron shielding and measurement 87.52.Ln, High LET 87.52.Px, Risk/benefit analysis 87.52.Tr, Regulatory issues 87.53.-jxx, Ionizing-radiation therapy physics 87.52.-gxx, Radiation monitoring, control, and safety 87.52.-g, Radiation monitoring, control, and safety 87.52.Df, Low LET: therapeutic and diagnostic x-rays and electrons 87.50.Mn, Magnetic fields 87.50.Rr, Electric fields 87.50.Kk, Sound and ultrasound 87.50.Hj, Optical radiation (near ultraviolet, visible, and infrared) 87.50.Jk, Radio frequency and microwave radiation (power lines) 87.50.Gi, Ionizing radiations (ultraviolet, x-rays, gamma-rays, ions, electrons, positrons, neutrons, and mesons, etc.) 87.50.-a, Effects of radiation and external fields on biomolecules, cells and higher organisms 87.23.Kg, Dynamics of evolution 87.50.-axx, Effects of radiation and external fields on biomolecules, cells and higher organisms 87.23.Ge, Dynamics of social systems 87.23.-nxx, Ecology and evolution 87.23.-n, Ecology and evolution 87.23.Cc, Population dynamics and ecological pattern formation 87.19.Tt, Rheology of body fluids 87.19.Uv, Haemodynamics, pneumodynamics 87.19.Xx, Diseases 87.19.St, Movement and locomotion 87.19.La, Neuroscience 87.19.Nn, Electrophysiology 87.19.Pp, Biothermics 87.19.Rr, Mechanical properties of tissues and organs 87.19.Ff, Muscles 87.19.Hh, Cardiac dynamics 87.19.Jj, Circadian rhythms 87.19.-j, Properties of higher organisms 87.19.Bb, Sensory perceptions 87.19.Dd, Information processing in vision and hearing 87.18.Sn, Neural networks 87.19.-jxx, Properties of higher organisms 87.18.Pj, Chemical waves 87.18.La, Morphogenesis 87.18.Bb, Computer simulation 87.18.Ed, Aggregation and other collective behavior of motile cells 87.18.Hf, Spatiotemporal pattern formation in cellular populations 87.18.-hxx, Multicellular phenomena 87.18.-h, Multicellular phenomena 87.17.Aa, Theory and modeling; computer simulation 87.17.Ee, Growth and division 87.17.-d, Cellular structure and processes 87.17.Nn, Electrophysiology of nerve cells 87.17.Jj, Cell locomotion; chemotaxis and related directed motion 87.17.-dxx, Cellular structure and processes 87.16.Yc, Regulatory chemical networks 87.16.Xa, Signal transduction 87.16.Sr, Chromosomes, histones 87.16.Tb, Organelles 87.16.Uv, Active transport processes; ion channels 87.16.Gj, Cell walls 87.16.Ka, Filaments, microtubules, their networks, and supramolecular assemblies 87.16.Nn, Motor proteins (myosin, kinesin dynein) 87.16.Qp, Pseudopods, lamellipods, cilia, and flagella 87.16.Ac, Theory and modeling; computer simulation 87.16.Dg, Membranes, bilayers, and vesicles 87.16.-bxx, Subcellular structure and processes 87.16.-b, Subcellular structure and processes 87.15.Tt, Electrophoresis (see also 82.45.-h Electrochemistry and 87.15.Ya, Fluctuations 87.15.Vv, Diffusion 87.15.La, Mechanical properties 87.15.Mi, Spectra, photodissociation, and photoionization; luminescence 87.15.Nn, Properties of solutions; aggregation and crystallization of macromolecules 87.15.Rn, Reactions and kinetics; polymerization (see also 82.39.-k Chemical kinetics in biological systems and 82.35.Pq Biopolymers, biopolymerization in physical chemistry and chemical physics) 87.15.Cc, Folding and sequence analysis 87.15.He, Dynamics and conformational changes 87.15.Kg, Molecular interactions; membrane-protein interactions 87.15.By, Structure and bonding 87.15.Aa, Theory and modeling; computer simulation 87.14.Cc, Lipids 87.14.Ee, Proteins 87.14.Gg, DNA, RNA 87.15.-vxx, Biomolecules: structure and physical properties 87.15.-v, Biomolecules: structure and physical properties 87.14.-g, Biomolecules: types 87.10.+e, General theory and mathematical aspects 87.14.-gxx, Biomolecules: types 87., Biological and medical physics 85.80.Lp, Magnetothermal devices 85.85.+j, Micro- and nano-electromechanical systems (MEMS/NEMS) and devices 85.90.+h, Other topics in electronic and magnetic devices and microelectronics (restricted to new topics in section 85) 85.80.Fi, Thermoelectric devices 85.80.Jm, Magnetoelectric devices 85.75.Ss, Magnetic field sensors using spin polarized transport 85.80.-bxx, Thermoelectromagnetic and other devices (for electrochemical devices, see 82.47.-a) 85.80.-b, Thermoelectromagnetic and other devices (for electrochemical devices, see 82.47.-a) 85.75.Nn, Hybrid Hall devices 85.75.Hh, Spin polarized field effect transistors 85.75.Mm, Spin polarized resonant tunnel junctions 85.75.Ff, Reprogrammable magnetic logic 85.75.Dd, Magnetic memory using magnetic tunnel junctions 85.75.Bb, Magnetic memory using giant magnetoresistance 85.75.-d, Magnetoelectronics; spintronics: devices exploiting spin polarized transport or integrated magnetic fields 85.75.-dxx, Magnetoelectronics; spintronics: devices exploiting spin polarized transport or integrated magnetic fields 85.70.Sq, Magnetooptical devices 85.70.Rp, Magnetic levitation, propulsion and control devices (for superconducting-magnetic levitation devices, see 84.71.Ba) 85.70.Li, Other magnetic recording and storage devices (including tapes, disks, and drums) 85.70.Kh, Magnetic thin film devices: magnetic heads (magnetoresistive, inductive, etc.); domain-motion devices, etc. 85.70.Ge, Ferrite and garnet devices 85.70.Ec, Magnetostrictive, magnetoacoustic, and magnetostatic devices (for magnetostrictive transducers, see 43.38.Ct-in acoustics appendix) 85.70.Ay, Magnetic device characterization, design, and modeling 85.70.-w, Magnetic devices 85.65.+h, Molecular electronic devices 85.70.-wxx, Magnetic devices 85.60.Pg, Display systems (for field emission display, see 85.45.Fd, for optical display devices, see 42.79.Kr; for electrochemical displays, see 82.47.Tp see also 07.07.Hj Display and recording equipment, oscilloscopes, TV cameras, etc.) 85.60.Ha, Photomultipliers; phototubes and photocathodes 85.60.Jb, Light-emitting devices 85.60.Gz, Photodetectors (including infrared and CCD detectors) (for superconducting infrared detectors, see 85.25.Pb; for superconducting optical, x-ray and gamma-ray detectors, see 85.25.Oj; see also 07.57.Kp in instruments) 85.60.-q, Optoelectronic devices (see also 42.79.-e Optical elements, devices and systems) 85.60.Bt, Optoelectronic device characterization, design, and modeling 85.60.Dw, Photodiodes; phototransistors; photoresistors 85.60.-qxx, Optoelectronic devices (see also 42.79.-e Optical elements, devices and systems) 85.50.-n, Dielectric, ferroelectric, and piezoelectric devices 85.50.Gk, Non-volatile ferroelectric memories 85.45.Db, Field emitters and arrays, cold electron emitters 85.45.Fd, Field emission displays (FEDs) 85.50.-nxx, Dielectric, ferroelectric, and piezoelectric devices 85.45.Bz, Vacuum microelectronic device characterization, design, and modeling 85.45.-w, Vacuum microelectronics 85.40.Xx, Hybrid microelectronics; thick films 85.45.-wxx, Vacuum microelectronics 85.40.Sz, Deposition technology (for plasma applications in deposition technology, see 52.77.Dq) 85.40.Ry, Impurity doping, diffusion and ion implantation technology 85.40.Ls, Metallization, contacts, interconnects; device isolation 85.40.Qx, Microcircuit quality, noise, performance, and failure analysis 85.40.Bh, Computer-aided design of microcircuits; layout and modeling 85.40.Hp, Lithography, masks and pattern transfer 85.40.-exx, Microelectronics: LSI, VLSI, ULSI; integrated circuit fabrication technology (see also 85.45.-w Vacuum microelectronics) 85.40.-e, Microelectronics: LSI, VLSI, ULSI; integrated circuit fabrication technology (see also 85.45.-w Vacuum microelectronics) 85.35.Ds, Quantum interference devices 85.35.Gv, Single electron devices 85.35.Kt, Nanotube devices 85.30.Tv, Field effect devices 85.35.-pxx, Nanoelectronic devices 85.35.Be, Quantum well devices (quantum dots, quantum wires, etc.) 85.35.-p, Nanoelectronic devices 85.30.Rs, Thyristors 85.30.Pq, Bipolar transistors 85.30.Mn, Junction breakdown and tunneling devices (including resonance 85.30.Kk, Junction diodes 85.30.De, Semiconductor-device characterization, design, and modeling 85.30.Fg, Bulk semiconductor and conductivity oscillation devices (including Hall effect devices, space-charge- limited devices, and Gunn effect 85.30.Hi, Surface barrier, boundary, and point contact devices 85.30.-z, Semiconductor devices (for photodiodes, phototransistors, and photoresistors, see 85.60.Dw; for laser diodes, see 42.55.Px) 85.30.-zxx, Semiconductor devices (for photodiodes, phototransistors, and photoresistors, see 85.60.Dw; for laser diodes, see 42.55.Px) 85.25.Qc, Superconducting surface acoustic wave devices and other 85.25.Hv, Superconducting logic elements and memory devices; microelectronic 85.25.Oj, Superconducting optical, x-ray, and gamma-ray detectors (SIS, NIS, transition edge) 85.25.Pb, Superconducting infrared, submillimeter and millimeter wave 85.25.Cp, Josephson devices 85.25.Dq, Superconducting quantum interference devices (SQUIDs) 85.25.-j, Superconducting devices 85.25.Am, Superconducting device characterization, design, and modeling 85., Electronic and magnetic devices; microelectronics 85.25.-jxx, Superconducting devices 84.90.+a, Other topics in electronics, radiowave and microwave technology, and direct energy conversion and storage (restricted to new topics in section 84) 84.71.Mn, Superconducting wires, fibers, and tapes 84.71.-b, Superconducting high-power technology (see also 84.30.Jc Power 84.71.Ba, Superconducting magnets; magnetic levitation devices 84.71.Fk, Superconducting cables 84.71.-bxx, Superconducting high-power technology (see also 84.30.Jc Power 84.60.Ve, Energy storage systems, including capacitor banks 84.70.+p, High-current and high-voltage technology: power systems; power transmission lines and cables (for superconducting cables, see 84.71.Fk) 84.60.Ny, Thermionic conversion (for thermionic generators, see 52.75.Fk-in plasma physics) 84.60.Rb, Thermoelectric, electrogasdynamic and other direct energy conversion 84.60.Lw, Magnetohydrodynamic conversion (for MHD generators, see 52.75.Fk-in plasma physics) 84.60.Jt, Photoelectric conversion: solar cells and arrays (for solar collectors and concentrators, see 42.79.Ek in optics) 84.60.Bk, Performance characteristics of energy conversion systems; figure of 84.60.-h, Direct energy conversion and storage (see also 89.30.-g Energy resources; for electrochemical conversion, see 82.47.-a) 84.50.+d, Electric motors 84.60.-hxx, Direct energy conversion and storage (see also 89.30.-g Energy resources; for electrochemical conversion, see 82.47.-a) 84.47.+w, Vacuum tubes (see also 85.45.-w Vacuum microelectronics) 84.40.Xb, Telemetry: remote control, remote sensing; radar 84.40.Ua, Telecommunications: signal transmission and processing; communication satellites (for optical communications, see 42.79.Sz 84.40.Ik, Masers; gyrotrons (cyclotron-resonance masers) 84.40.Lj, Microwave integrated electronics 84.40.Dc, Microwave circuits 84.40.Fe, Microwave tubes (e.g., klystrons, magnetrons, traveling-wave, backward-wave tubes, etc.) 84.40.Ba, Antennas: theory, components and accessories (for plasma interactions with antennas, see 52.40.Fd in plasma physics) 84.40.-x, Radiowave and microwave (including millimeter wave) technology 84.40.Az, Waveguides, transmission lines, striplines 84.32.Vv, Fuses 84.35.+i, Neural networks (for optical neural networks, see 42.79.Ta, see also 7.05.Mh Neural networks, fuzzy logic, artificial intelligence in computers in experimental physics; see also 87.18.Sn in multicellular phenomena) 84.37.+q, Electric variable measurements (including voltage, current, resistance, capacitance, inductance, impedance, and admittance, 84.40.-xxx, Radiowave and microwave (including millimeter wave) technology 84.32.Hh, Inductors and coils; wiring 84.32.Tt, Capacitors (for electrochemical capacitors and supercapacitors, see 82.47.Uv) 84.32.Dd, Connectors, relays, and switches 84.32.Ff, Conductors, resistors (including thermistors, varistors, and 84.30.Sk, Pulse and digital circuits 84.30.Vn, Filters 84.32.-yxx, Passive circuit components (see also 07.50.+q Electrical and electronic components, instruments, and techniques) 84.32.-y, Passive circuit components (see also 07.50.+q Electrical and electronic components, instruments, and techniques) 84.30.Qi, Modulators and demodulators; discriminators, comparators, mixers, limiters, and compressors 84.30.Ng, Oscillators, pulse generators, and function generators 84.30.Le, Amplifiers 84.30.Bv, Circuit theory (including computer-aided circuit design and analysis) 84.30.Jc, Power electronics; power supply circuits (see also 84.70.+p High-current and high-voltage technology; for superconducting high-power technology, see 84.71.-b) 84., Electronics; radiowave and microwave technology; direct energy conversion and storage 84.30.-r, Electronic circuits (for integrated circuits, see 85.40.-e, for microwave circuits, see 84.40.Dc) 84.30.-rxx, Electronic circuits (for integrated circuits, see 85.40.-e, for microwave circuits, see 84.40.Dc) 83.85.Vb, Small amplitude oscillatory shear (dynamic mechanical analysis) 83.90.+s, Other topics in rheology (restricted to new topics in section 83) 83.85.Rx, Extensional flow measurement 83.85.St, Stress relaxation 83.85.Tz, Creep and/or creep recoil 83.85.Ns, Data analysis (interconversion of data computation of relaxation and retardation spectra; time-temperature superposition, etc.) 83.85.Pt, Computational fluid dynamics (see also 02.70.-c-in mathematical methods in physics; 47.11.+j Computational methods in fluid dynamics) 83.85.Hf, X-ray and neutron scattering 83.85.Jn, Viscosity measurements 83.85.Lq, Normal stress difference measurements 83.85.Fg, NMR/magnetic resonance imaging (see also 76.60.Pc NMR imaging in condensed matter) 83.85.Cg, Rheological measurements-rheometry 83.85.Ei, Optical methods; rheo-optics 83.85.-cxx, Techniques and apparatus 83.80.Xz, Liquid crystals: nematic, cholesteric, smectic, discotic, etc. 83.85.-c, Techniques and apparatus 83.80.Ya, Processed food 83.80.Rs, Polymer solutions 83.80.Sg, Polymer melts 83.80.Tc, Polymer blends 83.80.Uv, Block copolymers 83.80.Va, Elastomeric polymers 83.80.Wx, Filled elastomers 83.80.Mc, Other natural materials (e.g. wood and other vegetable materials) 83.80.Nb, Geological materials: Earth, magma, ice, rocks, etc. 83.80.Qr, Surfactant and micellar systems, associated polymers 83.80.Jx, Reacting systems: thermosetting polymers, chemorheology, 83.80.Kn, Physical gels and microgels 83.80.Lz, Physiological materials (e.g. blood, collagen, etc.) 83.80.Iz, Emulsions and foams 83.80.Fg, Granular solids 83.80.Gv, Electro- and magnetorheological fluids 83.80.Hj, Suspensions, dispersions, pastes, slurries, colloids 83.80.Ab, Solids: e.g., composites, glasses, semicrystalline polymers 83.80.-k, Material type (see also 82.70.-y Disperse systems; complex fluids and 82.35.-x Polymers: properties; reactions; polymerization in physical chemistry and chemical physics) 83.60.Yz, Drag reduction 83.80.-kxx, Material type (see also 82.70.-y Disperse systems; complex fluids and 82.35.-x Polymers: properties; reactions; polymerization in physical chemistry and chemical physics) 83.60.Wc, Flow instabilities 83.60.Uv, Wave propagation, fracture, and crack healing 83.60.Np, Effects of electric and magnetic fields 83.60.Pq, Time-dependent structure (thixotropy, rheopexy) 83.60.Rs, Shear rate-dependent structure (shear thinning and shear thickening) 83.60.St, Non-isothermal rheology 83.60.Hc, Normal stress differences and their effects (e.g. rod climbing) 83.60.Jk, Extrudate swell 83.60.La, Viscoplasticity; yield stress 83.60.Bc, Linear viscoelasticity 83.60.Df, Nonlinear viscoelasticity 83.60.Fg, Shear rate dependent viscosity 83.50.Xa, Mixing and blending 83.60.-axx, Material behavior 83.60.-a, Material behavior 83.50.Rp, Wall slip and apparent slip 83.50.Uv, Material processing (extension, molding, etc.) 83.50.Jf, Extensional flow and combined shear and extension 83.50.Lh, Slip boundary effects (interfacial and free surface flows) (see also 47.45.Gx Slip flows in fluid dynamics) 83.50.Ax, Steady shear flows, viscometric flow 83.50.Ha, Flow in channels 83.50.-vxx, Deformation and flow 83.50.-v, Deformation and flow 83.10.Rs, Computer simulation of molecular and particle dynamics 83.10.Tv, Structural and phase changes 83.10.Pp, Particle dynamics 83.10.Mj, Molecular dynamics, Brownian dynamics 83.10.Kn, Reptation and tube theories 83.10.Gr, Constitutive relations 83., Rheology (see also section 47 Fluid dynamics) 83.10.-yxx, Fundamentals and theoretical 83.10.-y, Fundamentals and theoretical 83.10.Bb, Kinematics of deformation and flow 83.10.Ff, Continuum mechanics (see also section 46 Continuum mechanics of 82.80.Rt, Time of flight mass spectrometry 82.80.Yc, Rutherford backscattering (RBS), and other methods of chemical analysis 82.90.+j, Other topics in physical chemistry and chemical physics (restricted to new topics in section 82) 82.80.Qx, Ion cyclotron resonance mass spectrometry 82.80.Nj, Fourier transform mass spectrometry 82.80.Ms, Mass spectrometry (including SIMS, multiphoton ionization and resonance ionization mass spectrometry, MALDI) 82.80.Kq, Energy-conversion spectro-analytical methods (e.g., photoacoustic, photothermal, and optogalvanic spectroscopic methods) 82.80.Pv, Electron spectroscopy (x-ray photoelectron (XPS), Auger electron spectroscopy (AES), etc.) 82.80.Gk, Analytical methods involving vibrational spectroscopy 82.80.Ha, Analytical methods involving rotational spectroscopy 82.80.Jp, Activation analysis and other radiochemical methods 82.80.Fk, Electrochemical methods (see also 82.45.Rr Electroanalytical chemistry; for electrochemical sensors, see 82.47.Rs) 82.80.Ej, X-ray, Mössbauer, and other gamma-ray spectroscopic analysis methods 82.80.Dx, Analytical methods involving electronic spectroscopy 82.80.Bg, Chromatography 82.75.Qt, Mechanism and kinetics of catalysis in zeolites (measurements or simulations) 82.75.Vx, Clusters in zeolites 82.80.-dxx, Chemical analysis and related physical methods of analysis (for related instrumentation, see section 07; for chemical analysis techniques in biophysics, see 87.64.-t) 82.80.-d, Chemical analysis and related physical methods of analysis (for related instrumentation, see section 07; for chemical analysis techniques in biophysics, see 87.64.-t) 82.75.Jn, Measurements and modeling of molecule migration in zeolites 82.75.Mj, Measurements and simulation of properties (optical, structural) of 82.75.Fq, Synthesis, structure determination, structure modeling 82.75.-z, Molecular sieves, zeolites, clathrates, and other complex solids 82.75.-zxx, Molecular sieves, zeolites, clathrates, and other complex solids 82.70.Dd, Colloids 82.70.Gg, Gels and sols 82.70.Kj, Emulsions and suspensions 82.70.Rr, Aerosols and foams 82.70.Uv, Surfactants, micellar solutions, vesicles, lamellae, amphiphilic systems, (hydrophilic and hydrophobic interactions) (see also 82.30.Rs Hydrogen bonding, hydrophilic effects in specific chemical reactions) 82.70.-yxx, Disperse systems; complex fluids (see also 82.33.-z reactions in various media; for quantum optical phenomena in dispersive media, see 42.50.Nn) 82.70.-y, Disperse systems; complex fluids (see also 82.33.-z reactions in various media; for quantum optical phenomena in dispersive media, see 42.50.Nn) 82.60.Qr, Thermodynamics of nanoparticles 82.65.+r, Surface and interface chemistry; heterogeneous catalysis at surfaces (for temporal and spatial patterns in surface reactions, see 82.40.Np; see also 82.45.Jn Surface structure, reactivity and catalysis in electrochemistry) 82.60.Nh, Thermodynamics of nucleation (see also 64.60.Qb Nucleation-in equations of state, phase equilibria and phase transitions) 82.60.Fa, Heat capacities and heats of phase transitions 82.60.Hc, Chemical equilibria and equilibrium constants 82.60.Lf, Thermodynamics of solutions 82.60.Cx, Enthalpies of combustion, reaction, and formation 82.60.-s, Chemical thermodynamics (see also 05.70.-a Thermodynamics) 82.60.-sxx, Chemical thermodynamics (see also 05.70.-a Thermodynamics) 82.56.Lz, Diffusion 82.56.Na, Relaxation 82.56.Pp, NMR of biomolecules 82.56.Ub, Structure determination with NMR 82.56.Hg, Multinuclear NMR 82.56.Jn, Pulse sequences in NMR 82.56.Fk, Multidemensional NMR 82.56.Dj, High resolution NMR 82.53.Xa, Femtosecond probes of molecules in solids and of molecular solids 82.56.-bxx, Nuclear magnetic resonance (see also 33.25.+k Nuclear resonance and relaxation in atomic and molecular physics; 76.60.-k Nuclear magnetic resonance and relaxation; 76.70.-r Magnetic double resonances and cross effects in condensed matter) 82.56.-b, Nuclear magnetic resonance (see also 33.25.+k Nuclear resonance and relaxation in atomic and molecular physics; 76.60.-k Nuclear magnetic resonance and relaxation; 76.70.-r Magnetic double resonances and cross effects in condensed matter) 82.53.St, Femtochemistry of adsorbed molecules (for adsorbate structure, see 68.43.Bc, Fg in chemisorption/physisorption: adsorbates on surfaces) 82.53.Uv, Femtosecond probes of molecules in liquids 82.53.Ps, Femtosecond probing of biological molecules 82.53.Hn, Pump probe experiments with bound states 82.53.Kp, Coherent spectroscopy of atoms and molecules 82.53.Mj, Femtosecond probing of semiconductor nanostructures (see also 81.16.-c Methods of nanofabrication and processing) 82.53.Eb, Pump probe studies of photodissociation 82.53.-k, Femtochemistry (see also 78.47.+p Time-resolved optical spectroscopies and other ultrafast optical measurements in condensed matter; 42.65.Re Ultrafast processes; optical generation and pulse compression in nonlinear optics) 82.50.Pt, Multiphoton processes 82.53.-kxx, Femtochemistry (see also 78.47.+p Time-resolved optical spectroscopies and other ultrafast optical measurements in condensed matter; 42.65.Re Ultrafast processes; optical generation and pulse compression in nonlinear optics) 82.50.Bc, Processes caused by infrared radiation 82.50.Hp, Processes caused by visible and UV light 82.50.Kx, Processes caused by X-rays or gamma-rays 82.50.Nd, Control of photochemical reactions 82.47.Wx, Electrochemical engineering 82.50.-mxx, Photochemistry (for single molecule photochemistry, see 82.37.Vb) 82.50.-m, Photochemistry (for single molecule photochemistry, see 82.37.Vb) 82.47.Uv, Electrochemical capacitors; supercapacitors 82.47.Nj, Polymer-electrolyte fuel cells (PEFC) 82.47.Pm, Phosphoric-acid fuel cells (PAFC); other fuel cells 82.47.Rs, Electrochemical sensors 82.47.Tp, Electrochemical displays 82.47.Lh, Molten-carbonate fuel cells (MCFC) 82.47.Jk, Photoelectrochemical cells, photoelectrochromic and other hybrid electrochemical energy storage devices (see also 84.60.Jd Photoelectric conversion, solar cells and arrays) 82.47.Gh, Proton exchange membrane (PEM) fuel cells 82.47.-a, Applied electrochemistry 82.47.Aa, Lithium-ion batteries 82.47.Cb, Lead-acid, nickel-metal hydride and other batteries (for lithium-ion batteries, see 82.47.Aa) 82.47.Ed, Solid-oxide fuel cells (SOFC) 82.47.-axx, Applied electrochemistry 82.45.Xy, Ceramics in electrochemistry (see also 81.05.Je, Mh in specific materials) 82.45.Yz, Nanostructured materials in electrochemistry (for nanofabrication, see 81.16.-c in materials science) 82.45.Wx, Polymers and organic materials in electrochemistry (see also 82.35.-x Polymers: properties; reactions; polymerization) 82.45.Un, Dielectric materials in electrochemistry (see also 77.84.-s Dielectric, piezoelectric, ferroelectric, and antiferroelectric materials) 82.45.Vp, Semiconductor materials in electrochemistry (see also 81.05.Cy, Dz, Ea, Gc, Hd in specific materials) 82.45.Tv, Bioelectrochemistry (see also 82.39.-k Chemical kinetics in biological systems) 82.45.Rr, Electroanalytical chemistry (see also 82.80.Fk Electrochemical methods in chemical analysis and related physical methods of analysis) 82.45.Qr, Electrodeposition and electrodissolution (see also 81.15.Pq Electrodeposition, electroplating in materials science) 82.45.Mp, Thin layers, films, monolayers, membranes (for anodic films, see 82.45.Cc; for surface double layers, see 73.30.+y in electronic structure of surfaces) 82.45.Hk, Electrolysis 82.45.Jn, Surface structure, reactivity and catalysis (see also 82.65.+r Surface and interface chemistry; heterogeneous catalysis at surfaces) 82.45.Gj, Electrolytes (for polyelectrolytes, see also 82.35.Rs and 82.45.Wx; see also 66.30.Hs Self-diffusion and ionic conduction in nonmetals) 82.45.Bb, Corrosion and passivation (see also 81.65.Kn Corrosion protection and 81.65.Rv Passivation in surface treatments) 82.45.Fk, Electrodes 82.45.Cc, Anodic films 82.45.Aa, Electrochemical synthesis (see also 81.16.Be Chemical synthesis methods in nanofabrication and 81.20.Ka Chemical synthesis; combustion synthesis in materials synthesis) 82.45.-h, Electrochemistry and electrophoresis 82.45.-hxx, Electrochemistry and electrophoresis 82.40.Np, Temporal and spatial patterns in surface reactions 82.40.Qt, Complex chemical systems (for complex biological systems, see 82.39.Rt) 82.40.Ck, Pattern formation in reactions with diffusion, flow and heat transfer (see also 47.54.+r Pattern selection; pattern formation and 47.32.Cc Vortex dynamics in fluid dynamics) 82.40.Fp, Shock wave initiated reactions, high-pressure chemistry (see also 47.40.Nm Shock wave interactions and shock effects in fluid dynamics, and 62.50.+p high-pressure and shock wave effects in solids and liquids) 82.40.Bj, Oscillations, chaos, and bifurcations 82.40.-g, Chemical kinetics and reactions: special regimes and techniques 82.39.Rt, Reactions in complex biological systems 82.39.Wj, Ion exchange, dialysis, osmosis, electro-osmosis, membrane processes 82.40.-gxx, Chemical kinetics and reactions: special regimes and techniques 82.39.Pj, Nucleic acids, DNA and RNA bases 82.39.Fk, Enzyme kinetics 82.39.Jn, Charge (electron, proton) transfer in biological systems 82.39.-k, Chemical kinetics in biological systems (see also 87.15.Rn Reactions and kinetics; polymerization in biological and medical physics, and 82.45.Tv Bioelectrochemistry) 82.37.Rs, Single molecule manipulation of proteins and other biological 82.37.Vb, Single molecule photochemistry 82.39.-kxx, Chemical kinetics in biological systems (see also 87.15.Rn Reactions and kinetics; polymerization in biological and medical physics, and 82.45.Tv Bioelectrochemistry) 82.37.Np, Single molecule reaction kinetics, dissociation, etc. 82.37.Gk, STM and AFM manipulations of a single molecule (for atom manipulation see 39.25.+k in atomic and molecular physics; see also 81.16.Ta Atom manipulation in methods of nanofabrication and 82.37.-j, Single molecule kinetics 82.35.Jk, Copolymers, phase transitions, structure 82.35.Lr, Physical properties of polymers 82.35.Np, Nanoparticles in polymers (see also 81.07.-b Nanoscale materials and structures: fabrication and characterization) 82.37.-jxx, Single molecule kinetics 82.35.Pq, Biopolymers, biopolymerization (see also 87.15.Rn Reactions and kinetics; polymerization in biological and medical physics) 82.35.Rs, Polyelectrolytes 82.35.Cd, Conducting polymers 82.35.Ej, Nonlinear optics with polymers (see also 42.65.-k in nonlinear 82.35.Gh, Polymers on surfaces; adhesion (see also 68.35.Np Adhesion in surfaces and interfaces) 82.35.-x, Polymers: properties; reactions; polymerization (for polymers in electrochemistry, see 82.45.Wx) 82.33.Vx, Reactions in flames, combustion, and explosions 82.35.-xxx, Polymers: properties; reactions; polymerization (for polymers in electrochemistry, see 82.45.Wx) 82.33.Xj, Plasma reactions (including flowing afterglow and electric discharges) 82.33.Ya, Chemistry of MOCVD and other vapor deposition methods (for methods of vapor deposition of films and coatings, see 81.15.Gh, Kk in materials science) 82.33.Nq, Reactions in micells 82.33.Pt, Solid state chemistry 82.33.Tb, Atmospheric chemistry (see also 92.60.Hp and 94.10.Fa in geophysics) 82.33.Fg, Reactions in clusters (see also 36.40.Jn Reactivity of clusters in atomic and molecular physics) 82.33.Ln, Reactions in sol gels, aerogels, porous media 82.33.Jx, Reactions in zeolites 82.33.Hk, Reactions on clusters 82.33.De, Reactions in supercritical fluids 82.33.-z, Reactions in various media 82.30.Rs, Hydrogen bonding, hydrophilic effects 82.30.Vy, Homogeneous catalysis in solution, polymers and zeolites (for heterogeneous catalysis in zeolites, see 82.75.Qt ) 82.33.-zxx, Reactions in various media 82.30.Qt, Isomerization and rearrangement 82.30.Nr, Association, addition, insertion, cluster formation 82.30.Hk, Chemical exchanges (substitution, atom transfer, abstraction, disproportionation, and group exchange) 82.30.Lp, Decomposition reactions (pyrolysis, dissociation, and fragmentation) 82.30.Gg, Positronium chemistry (see also 36.10.Dr Positronium, muonium, muonic atoms and molecules in atomic and molecular physics; 78.70.Bj Positron annihilation in interactions of particles and radiation with matter) 82.30.Fi, Ion-molecule, ion-ion, and charge-transfer reactions (see also 34.70.+e Charge transfer in atomic and molecular collisions) 82.30.-bxx, Specific chemical reactions; reaction mechanisms 82.30.-b, Specific chemical reactions; reaction mechanisms 82.30.Cf, Atom and radical reactions; chain reactions; molecule-molecule reactions 82.20.Uv, Stochastic theories of rate constants 82.20.Wt, Computational modeling; simulation 82.20.Xr, Quantum effects in rate constants (tunneling, resonances, etc.) 82.20.Yn, Solvent effects on reactivity 82.20.Sb, Correlation function theory of rate constants and its applications 82.20.Tr, Kinetic isotope effects including muonium 82.20.Rp, State to state energy transfer (see also 31.70.Hq Time-dependent phenomena, and 34.50.Pi state-to-state scattering analyses-in atomic and molecular physics) 82.20.Nk, Classical theories of reactions and/or energy transfer 82.20.Pm, Rate constants, reaction cross sections, and activation energies 82.20.Ln, Semiclassical theory of reactions and/or energy transfer 82.20.Kh, Potential energy surfaces for chemical reactions (for potential energy surfaces for collisions, see 34.20.Mq in atomic and molecular collisions and interactions) 82.20.Hf, Product distribution (for state selected dynamics and product distribution, see 82.20.Bc) 82.20.Ej, Quantum theory of reaction cross section 82.20.Fd, Collision theories; trajectory models 82.20.Gk, Electronically non-adiabatic reactions 82.20.Db, Transition state theory and statistical theories of rate constants 82.20.-wxx, Chemical kinetics and dynamics 82.20.-w, Chemical kinetics and dynamics 82.20.Bc, State selected dynamics and product distribution (see also 34.50.Pi State-to-state scattering analyses in scattering of atoms and 81.70.Tx, Computed tomography 81.90.+c, Other topics in materials science (restricted to new topics in section 81) 82., Physical chemistry and chemical physics 81.70.Pg, Thermal analysis, differential thermal analysis (DTA), differential thermogravimetric analysis 81.70.Ha, Testing in microgravity environments 81.70.Jb, Chemical composition analysis, chemical depth and dopant profiling 81.70.Ex, Nondestructive testing: electromagnetic testing, eddy-current 81.70.Fy, Nondestructive testing: optical methods 81.70.Cv, Nondestructive testing: ultrasonic testing, photoacoustic testing 81.70.Bt, Mechanical testing, impact tests, static and dynamic loads 81.70.-q, Methods of materials testing and analysis (for specific chemical analysis methods, see 82.80.-d) 81.65.Tx, Gettering 81.70.-qxx, Methods of materials testing and analysis (for specific chemical analysis methods, see 82.80.-d) 81.65.Rv, Passivation (see also 82.45.Bb Corrosion and passivation in 81.65.Mq, Oxidation 81.65.Ps, Polishing, grinding, surface finishing 81.65.Lp, Surface hardening: nitridation, carburization, carbonitridation 81.65.Kn, Corrosion protection (see also 82.45.Bb Corrosion and passivation in 81.65.Cf, Surface cleaning, etching, patterning (see also 52.77.Bn Etching and cleaning in physics of plasmas) 81.65.-b, Surface treatments (see also 85.40.-e Microelectronics: LSI, VLSI, ULSI; integrated circuit fabrication technology) 81.65.-bxx, Surface treatments (see also 85.40.-e Microelectronics: LSI, VLSI, ULSI; integrated circuit fabrication technology) 81.40.Wx, Radiation treatment (particle and electromagnetic) (see also 61.80.-x Physical radiation effects, radiation damage) 81.40.Vw, Pressure treatment (see also 62.50.+p High-pressure and shock-wave effects in solids and liquids) 81.40.Tv, Optical and dielectric properties (related to treatment conditions) 81.40.Pq, Friction, lubrication, and wear 81.40.Rs, Electrical and magnetic properties (related to treatment conditions) 81.40.Np, Fatigue, corrosion fatigue, embrittlement, cracking, fracture and failure 81.40.Lm, Deformation, plasticity, and creep (see also 83.50.-v Deformation and flow in rheology) 81.40.Jj, Elasticity and anelasticity, stress-strain relations 81.40.Gh, Other heat and thermomechanical treatments 81.40.Ef, Cold working, work hardening; annealing, post-deformation annealing, quenching, tempering recovery, and crystallization 81.40.Cd, Solid solution hardening, precipitation hardening, and dispersion hardening; aging 81.40.-z, Treatment of materials and its effects on microstructure and 81.40.-zxx, Treatment of materials and its effects on microstructure and 81.30.Mh, Solid-phase precipitation (see also 64.75.+g Solubility, segregation, and mixing; phase separation) 81.30.Kf, Martensitic transformations 81.30.Hd, Constant-composition solid-solid phase transformations: polymorphic, massive, and order-disorder 81.30.Dz, Phase diagrams of other materials (for phase diagrams of superconductors, see 74.25.Dw) 81.30.Fb, Solidification 81.30.Bx, Phase diagrams of metals and alloys 81.30.-t, Phase diagrams and microstructures developed by solidification and solid-solid phase transformations (see also 64.70.Kb Solid-solid transitions) 81.30.-txx, Phase diagrams and microstructures developed by solidification and solid-solid phase transformations (see also 64.70.Kb Solid-solid transitions) 81.20.Wk, Machining, milling 81.20.Ym, Purification 81.20.Vj, Joining; welding 81.20.Rg, Aerosols in materials synthesis and processing 81.20.Ka, Chemical synthesis; combustion synthesis (for electrochemical synthesis, see 82.45.Aa) 81.20.Hy, Forming; molding, extrusion etc. 81.20.Fw, Sol-gel processing, precipitation 81.20.-nxx, Methods of materials synthesis and materials processing (for ion implantation and doping, see 61.72.Tt, Vv, and Ww) 81.20.Ev, Powder processing: powder metallurgy, compaction, sintering, mechanical alloying, and granulation 81.20.-n, Methods of materials synthesis and materials processing (for ion implantation and doping, see 61.72.Tt, Vv, and Ww) 81.16.Pr, Nanooxidation (see also 82.37.Np Single molecule reaction kinetics in physical chemistry and chemical physics) 81.16.Ta, Atom manipulation (see also 82.37.Gk STM and AFM manipulation of a single molecule in physical chemistry and chemical physics; 39.25.+k Atom manipulation in atomic and molecular physics) 81.16.Rf, Nanoscale pattern formation 81.16.Nd, Nanolithography 81.16.Mk, Laser-assisted deposition 81.16.Hc, Catalytic methods 81.16.Fg, Supramolecular and biochemical assembly 81.16.Dn, Self-assembly 81.16.Be, Chemical synthesis methods (for electrochemical synthesis, see 82.45.Aa) 81.16.-c, Methods of nanofabrication and processing (for femtosecond probing of semiconductor nanostructures, see 82.53.Mj in physical chemistry and chemical physics) 81.15.Rs, Spray coating techniques 81.16.-cxx, Methods of nanofabrication and processing (for femtosecond probing of semiconductor nanostructures, see 82.53.Mj in physical chemistry and chemical physics) 81.15.Lm, Liquid phase epitaxy; deposition from liquid phases (melts, solutions, and surface layers on liquids) 81.15.Pq, Electrodeposition, electroplating 81.15.Np, Solid phase epitaxy; growth from solid phases 81.15.Kk, Vapor phase epitaxy; growth from vapor phase 81.15.Hi, Molecular, atomic, ion, and chemical beam epitaxy 81.15.Gh, Chemical vapor deposition (including plasma-enhanced CVD, MOCVD, etc.) (for chemistry of MOCVD, see 82.33.Ya in physical chemistry and chemical physics) 81.15.Jj, Ion and electron beam-assisted deposition; ion plating (see also 52.77.Dq Plasma-based ion implantation and deposition in physics of plasmas) 81.15.Fg, Laser deposition 81.15.-z, Methods of deposition of films and coatings; film growth and epitaxy (for structure of thin films, see 68.55.-a; see also 85.40.Sz 81.15.Aa, Theory and models of film growth 81.15.Cd, Deposition by sputtering 81.15.Ef, Vacuum deposition 81.15.-zxx, Methods of deposition of films and coatings; film growth and epitaxy (for structure of thin films, see 68.55.-a; see also 85.40.Sz 81.10.Mx, Growth in microgravity environments 81.10.Jt, Growth from solid phases (including multiphase diffusion and recrystallization) 81.10.Fq, Growth from melts; zone melting and refining 81.10.Dn, Growth from solutions 81.10.Bk, Growth from vapor 81.10.-h, Methods of crystal growth; physics of crystal growth (for crystal structure, see section 61) 81.10.Aj, Theory and models of crystal growth; physics of crystal growth, crystal morphology and orientation 81.07.Wx, Nanopowders 81.10.-hxx, Methods of crystal growth; physics of crystal growth (for crystal structure, see section 61) 81.07.Bc, Nanocrystalline materials 81.07.De, Nanotubes 81.07.Lk, Nanocontacts 81.07.Nb, Molecular nanostructures 81.07.Pr, Organic-inorganic hybrid nanostructures 81.07.St, Quantum wells 81.07.Ta, Quantum dots 81.07.Vb, Quantum wires 81.07.-b, Nanoscale materials and structures: fabrication and characterization (for nanostructured materials in electrochemistry, see 82.45.Yz; for nanoparticles in polymers, see 82.35.Np in physical chemistry and chemical physics) 81.05.Zx, New materials: theory, design, and fabrication 81.07.-bxx, Nanoscale materials and structures: fabrication and characterization (for nanostructured materials in electrochemistry, see 82.45.Yz; for nanoparticles in polymers, see 82.35.Np in physical chemistry and chemical physics) 81.05.Tp, Fullerenes and related materials 81.05.Uw, Carbon, diamond, graphite 81.05.Qk, Reinforced polymers and polymer-based composites 81.05.Rm, Porous materials; granular materials (for granular superconductors, see 74.81.Bd) 81.05.Mh, Cermets, ceramic and refractory composites 81.05.Ni, Dispersion-, fiber-, and platelet-reinforced metal-based composites 81.05.Pj, Glass-based composites, vitroceramics 81.05.Lg, Polymers and plastics; rubber; synthetic and natural fibers; organometallic and organic materials (for polymers and organic materials in electrochemistry, see 82.45.Wx) 81.05.Kf, Glasses (including metallic glasses) 81.05.Je, Ceramics and refractories (including borides, carbides, hydrides, nitrides, oxides, and silicides) (for ceramics in electrochemistry, see 82.45.Yz) 81.05.Hd, Other semiconductors 81.05.-t, Specific materials: fabrication, treatment, testing and analysis 81.05.Bx, Metals, semimetals, and alloys 81.05.Cy, Elemental semiconductors (for semiconductors in electrochemistry, see 82.45.Vp) 81.05.Dz, II-VI semiconductors 81.05.Ea, III-V semiconductors 81.05.Gc, Amorphous semiconductors 81., Materials science 80., INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND 81.05.-txx, Specific materials: fabrication, treatment, testing and analysis 79.75.+g, Exoelectron emission 79.90.+b, Other topics in electron and ion emission by liquids and solids and impact phenomena (restricted to new topics in section 79) 79.70.+q, Field emission, ionization, evaporation, and desorption 79.60.Jv, Interfaces; heterostructures; nanostructures 79.60.Ht, Disordered structures 79.40.+z, Thermionic emission 79.60.-ixx, Photoemission and photoelectron spectra 79.60.-i, Photoemission and photoelectron spectra 79.60.Bm, Clean metal, semiconductor, and insulator surfaces 79.60.Dp, Adsorbed layers and thin films 79.60.Fr, Polymers; organic compounds 79.20.La, Photon- and electron-stimulated desorption 79.20.Mb, Positron emission 79.20.Rf, Atomic, molecular, and ion beam impact and interactions with surfaces 79.20.Uv, Electron energy loss spectroscopy (see also 82.80.Pv Electronspectroscopy in physical chemistry and chemical physics; 34.80.-i Electron scattering in atomic and molecular physics) 79.20.Kz, Other electron-impact emission phenomena 79.20.Hx, Electron impact: secondary emission 79.20.-mxx, Impact phenomena (including electron spectra and sputtering) 79.20.-m, Impact phenomena (including electron spectra and sputtering) 79.20.Ap, Theory of impact phenomena; numerical simulation 79.20.Ds, Laser-beam impact phenomena 79.20.Fv, Electron impact: Auger emission 79., Electron and ion emission by liquids and solids; impact phenomena 78.90.+t, Other topics in optical properties, condensed matter spectroscopy interactions of particles and radiation with condensed matter (restricted to new topics in section 78) 78.70.Gq, Microwave and radio-frequency interactions 78.70.Nx, Neutron inelastic scattering 78.70.Ck, X-ray scattering 78.70.Dm, X-ray absorption spectra 78.70.En, X-ray emission spectra and fluorescence 78.70.Bj, Positron annihilation (for positron states, see 71.60.+z in electronic structure of bulk materials; for positronium chemistry, see 82.30.Gg in physical chemistry and chemical physics) 78.68.+m, Optical properties of surfaces 78.70.-gxx, Interactions of particles and radiation with matter 78.70.-g, Interactions of particles and radiation with matter 78.67.Lt, Quantum wires 78.67.Pt, Multilayers; superlattices 78.67.De, Quantum wells 78.67.Hc, Quantum dots 78.67.Ch, Nanotubes 78.67.Bf, Nanocrystals and nanoparticles 78.67.-n, Optical properties of low-dimensional, mesoscopic, and nanoscale materials and structures 78.66.Tr, Fullerenes and related materials 78.66.Vs, Fine-particle systems 78.67.-nxx, Optical properties of low-dimensional, mesoscopic, and nanoscale materials and structures 78.66.Nk, Insulators 78.66.Qn, Polymers; organic compounds 78.66.Sq, Composite materials 78.66.Li, Other semiconductors 78.66.Fd, III-V semiconductors 78.66.Hf, II-VI semiconductors 78.66.Jg, Amorphous semiconductors; glasses 78.66.Db, Elemental semiconductors and insulators 78.66.Bz, Metals and metallic alloys 78.66.-w, Optical properties of specific thin films (for optical properties of low-dimensional, mesoscopic, and nanoscale materials, see 78.67.-n; for optical properties of surfaces, see 78.68.+m) 78.60.Hk, Cathodoluminescence, ionoluminescence 78.60.Kn, Thermoluminescence 78.60.Mq, Sonoluminescence, triboluminescence 78.60.Ps, Chemiluminescence (see also 42.55.Ks Chemical lasers) 78.66.-wxx, Optical properties of specific thin films (for optical properties of low-dimensional, mesoscopic, and nanoscale materials, see 78.67.-n; for optical properties of surfaces, see 78.68.+m) 78.60.-b, Other luminescence and radiative recombination 78.60.Fi, Electroluminescence 78.60.-bxx, Other luminescence and radiative recombination 78.55.Mb, Porous materials 78.55.Qr, Amorphous materials; glasses and other disordered solids 78.55.Kz, Solid organic materials 78.55.Hx, Other solid inorganic materials 78.55.Et, II-VI semiconductors 78.55.Fv, Solid alkali halides 78.55.Cr, III-V semiconductors 78.55.Ap, Elemental semiconductors 78.55.Bq, Liquids 78.55.-m, Photoluminescence, properties and materials 78.55.-mxx, Photoluminescence, properties and materials 78.47.+p, Time-resolved optical spectroscopies and other ultrafast optical measurements in condensed matter (see also 42.65.Re-in nonlinear optics; 82.53.-k Femtochemistry in physical chemistry and chemical 78.45.+h, Stimulated emission (see also 42.55.-f Lasers) 78.40.Ha, Other nonmetallic inorganics 78.40.Kc, Metals, semimetals, and alloys 78.40.Me, Organic compounds and polymers 78.40.Pg, Disordered solids 78.40.Ri, Fullerenes and related materials 78.40.Dw, Liquids 78.40.Fy, Semiconductors 78.40.-q, Absorption and reflection spectra: visible and ultraviolet (for infrared spectra, see 78.30.-j) 78.35.+c, Brillouin and Rayleigh scattering; other light scattering (for Raman scattering, see 78.30.-j) 78.40.-qxx, Absorption and reflection spectra: visible and ultraviolet (for infrared spectra, see 78.30.-j) 78.30.Na, Fullerenes and related materials 78.30.Ly, Disordered solids 78.30.Jw, Organic compounds, polymers 78.30.Hv, Other nonmetallic inorganics 78.30.Am, Elemental semiconductors and insulators 78.30.Cp, Liquids 78.30.Er, Solid metals and alloys 78.30.Fs, III-V and II-VI semiconductors 78.30.-j, Infrared and Raman spectra (for vibrational states in crystals and disordered systems, see 63.20.-e and 63.50.+x respectively) 78.30.-jxx, Infrared and Raman spectra (for vibrational states in crystals and disordered systems, see 63.20.-e and 63.50.+x respectively) 78.20.Nv, Thermooptical and photothermal effects 78.20.Ls, Magnetooptical effects 78.20.Ek, Optical activity 78.20.Fm, Birefringence 78.20.Hp, Piezo-, elasto-, and acoustooptical effects; photoacoustic effects 78.20.Jq, Electrooptical effects 78.20.Bh, Theory, models, and numerical simulation 78.20.Ci, Optical constants (including refractive index, complex dielectric constant, absorption, reflection and transmission coefficients, 78.20.-e, Optical properties of bulk materials and thin films (for optical properties related to materials treatment, see 81.40.Tv; for optical materials, see 42.70-a; for optical properties of superconductors, see 74.25.Gs; for optical properties of rocks and mine 78.20.-exx, Optical properties of bulk materials and thin films (for optical properties related to materials treatment, see 81.40.Tv; for optical materials, see 42.70-a; for optical properties of superconductors, see 74.25.Gs; for optical properties of rocks and mine 78., Optical properties, condensed-matter spectroscopy and other interactions of radiation and particles with condensed matter 77.90.+k, Other topics in dielectrics, piezoelectrics, and ferroelectrics and their properties (restricted to new topics in section 77) 77.84.Fa, KDP- and TGS-type crystals 77.84.Jd, Polymers; organic compounds 77.84.Lf, Composite materials 77.84.Nh, Liquids, emulsions, and suspensions; liquid crystals (for structure of liquid crystals, see 61.30.-v) 77.84.Bw, Elements, oxides, nitrides, borides, carbides, chalcogenides, etc. 77.84.Dy, Niobates, titanates, tantalates, PZT ceramics, etc. 77.84.-s, Dielectric, piezoelectric, ferroelectric, and antiferroelectric materials (for nonlinear optical materials, see 42.70.Mp; for dielectric materials in electrochemistry, see 82.45.Un) 77.80.Fm, Switching phenomena 77.84.-sxx, Dielectric, piezoelectric, ferroelectric, and antiferroelectric materials (for nonlinear optical materials, see 42.70.Mp; for dielectric materials in electrochemistry, see 82.45.Un) 77.80.Dj, Domain structure; hysteresis 77.80.-exx, Ferroelectricity and antiferroelectricity 77.80.-e, Ferroelectricity and antiferroelectricity 77.80.Bh, Phase transitions and Curie point 77.70.+a, Pyroelectric and electrocaloric effects 77.65.-j, Piezoelectricity and electromechanical effects 77.65.Bn, Piezoelectric and electrostrictive constants 77.65.Dq, Acoustoelectric effects and surface acoustic waves (SAW) in 77.65.Ly Strain-induced piezoelectric fields 77.22.Jp, Dielectric breakdown and space-charge effects 77.55.+f, Dielectric thin films 77.65.-jxx, Piezoelectricity and electromechanical effects 77.22.Gm, Dielectric loss and relaxation 77.22.-d, Dielectric properties of solids and liquids 77.22.Ch, Permittivity (dielectric function) 77.22.Ej, Polarization and depolarization 77.22.-dxx, Dielectric properties of solids and liquids 77., Dielectrics, piezoelectrics, and ferroelectrics and their properties (for conductivity phenomena, see 72.20.-i and 72.80.-r; for dielectric properties related to treatment conditions, see 81.40.Tv) 76.75.+i, Muon spin rotation and relaxation 76.80.+y, Mo?ssbauer effect; other gamma-ray spectroscopy (see also 33.45.+x Mo?ssbauer spectra-in atomic and molecular physics) 76.90.+d, Other topics in magnetic resonances and relaxations (restricted to new topics in section 76) 76.70.Hb, Optically detected magnetic resonance (ODMR) 76.70.Fz, Double nuclear magnetic resonance (DNMR), dynamical nuclear polarization 76.70.-r, Magnetic double resonances and cross effects (see also 33.40.+f Multiple resonances in atomic and molecular physics) 76.70.Dx, Electron-nuclear double resonance (ENDOR), electron double resonance 76.60.Jx, Effects of internal magnetic fields 76.60.Lz, Spin echoes 76.60.Pc, NMR imaging (for medical NMR imaging, see 87.61.-c) 76.70.-rxx, Magnetic double resonances and cross effects (see also 33.40.+f Multiple resonances in atomic and molecular physics) 76.60.Gv, Quadrupole resonance 76.60.Es, Relaxation effects 76.60.Cq, Chemical and Knight shifts 76.60.-k, Nuclear magnetic resonance and relaxation (see also 33.25.+k Nuclear resonance and relaxation in atomic and molecular physics and 82.56.-b Nuclear magnetic resonance in physical chemistry and chemical physics) 76.60.-kxx, Nuclear magnetic resonance and relaxation (see also 33.25.+k Nuclear resonance and relaxation in atomic and molecular physics and 82.56.-b Nuclear magnetic resonance in physical chemistry and chemical physics) 76.50.+g, Ferromagnetic, antiferromagnetic, and ferrimagnetic resonances; spin-wave resonance (see also 75.30.Ds Spin waves) 76.30.Kg, Rare-earth ions and impurities 76.30.Lh, Other ions and impurities 76.30.Mi, Color centers and other defects 76.30.Pk, Conduction electrons 76.30.Rn, Free radicals 76.40.+b, Diamagnetic and cyclotron resonances 76.30.He, Platinum and palladium group (4d and 5d) ions and impurities (Zr-Ag and Hf-Au) 76.30.Fc, Iron group (3d) ions and impurities (Ti-Cu) 76.30.Da, Ions and impurities: general 76.20.+q, General theory of resonances and relaxations 76.30.-vxx, Electron paramagnetic resonance and relaxation (see also 33.35.+r Electron resonance and relaxation in atomic and molecular physics) 76.30.-v, Electron paramagnetic resonance and relaxation (see also 33.35.+r Electron resonance and relaxation in atomic and molecular physics) 76., Magnetic resonances and relaxations in condensed matter, Mössbauer 75.90.+w, Other topics in magnetic properties and materials (restricted to new topics in section 75) 75.80.+q, Magnetomechanical and magnetoelectric effects, magnetostriction 75.70.Rf, Surface magnetism 75.75.+a, Magnetic properties of nanostructures 75.70.Kw, Domain structure (including magnetic bubbles) 75.70.Cn, Magnetic properties of interfaces (multilayers, superlattices, 75.70.Ak, Magnetic properties of monolayers and thin films 75.70.-i, Magnetic properties of thin films, surfaces, and interfaces (for magnetic properties of nanostructures, see 75.75.+a) 75.60.Lr, Magnetic aftereffects 75.60.Nt, Magnetic annealing and temperature-hysteresis effects 75.70.-ixx, Magnetic properties of thin films, surfaces, and interfaces (for magnetic properties of nanostructures, see 75.75.+a) 75.60.Jk, Magnetization reversal mechanisms 75.60.Ch, Domain walls and domain structure (for magnetic bubbles, see 75.70.Kw) 75.60.Ej, Magnetization curves, hysteresis, Barkhausen and related effects 75.60.-d, Domain effects, magnetization curves, and hysteresis 75.50.Ww, Permanent magnets 75.50.Xx, Molecular magnets 75.60.-dxx, Domain effects, magnetization curves, and hysteresis 75.50.Ss, Magnetic recording materials (see also 85.70.-w Magnetic devices) 75.50.Tt, Fine-particle systems; nanocrystalline materials 75.50.Vv, High coercivity materials 75.50.Pp, Magnetic semiconductors 75.50.Mm, Magnetic liquids 75.50.Lk, Spin glasses and other random magnets 75.50.Cc, Other ferromagnetic metals and alloys 75.50.Dd, Nonmetallic ferromagnetic materials 75.50.Ee, Antiferromagnetics 75.50.Gg, Ferrimagnetics 75.50.Kj, Amorphous and quasicrystalline magnetic materials 75.50.Bb, Fe and its alloys 75.50.-y, Studies of specific magnetic materials 75.47.Lx, Manganites 75.47.Np, Metals and alloys 75.47.Pq, Other materials 75.50.-yxx, Studies of specific magnetic materials 75.47.De, Giant magnetoresistance 75.47.Gk, Colossal magnetoresistance 75.47.Jn, Ballistic magnetoresistance 75.47.-m, Magnetotransport phenomena; materials for magnetotransport (for spintronics, see 85.75.-d; see also 72.15.Gd, 73.50.Jt, 73.43.Qt, and 72.25.-b in transport phenomena) 75.47.-mxx, Magnetotransport phenomena; materials for magnetotransport (for spintronics, see 85.75.-d; see also 72.15.Gd, 73.50.Jt, 73.43.Qt, and 72.25.-b in transport phenomena) 75.40.Mg, Numerical simulation studies 75.45.+j, Macroscopic quantum phenomena in magnetic systems 75.40.Gb, Dynamic properties (dynamic susceptibility, spin waves, spin diffusion, dynamic scaling, etc.) 75.40.Cx, Static properties (order parameter, static susceptibility, heat capacities, critical exponents, etc.) 75.40.-sxx, Critical-point effects, specific heats, short-range order (see also 65.40.-b Heat capacities of solids) 75.40.-s, Critical-point effects, specific heats, short-range order (see also 65.40.-b Heat capacities of solids) 75.30.Wx, Spin crossover 75.30.Sg, Magnetocaloric effect, magnetic cooling 75.30.Fv, Spin-density waves 75.30.Gw, Magnetic anisotropy 75.30.Hx, Magnetic impurity interactions 75.30.Kz, Magnetic phase boundaries (including magnetic transitions, metamagnetism, etc.) 75.30.Mb, Valence fluctuation, Kondo lattice, and heavy-fermion phenomena (see 71.27.-a Strongly correlated electron systems, heavy fermions) 75.30.Et, Exchange and superexchange interactions (see also 71.70.-d Level splitting and interactions) 75.30.Ds, Spin waves (for spin-wave resonance, see 76.50.+g) 75.30.-m, Intrinsic properties of magnetically ordered materials (for critical point effects, see 75.40.-s) 75.30.Cr, Saturation moments and magnetic susceptibilities 75.30.-mxx, Intrinsic properties of magnetically ordered materials (for critical point effects, see 75.40.-s) 75.25.+z, Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source x-ray scattering, etc.) (for devices exploiting spin polarized transport, see 85.75.-d) 75.20.Hr, Local moment in compounds and alloys; Kondo effect, valence fluctuations, heavy fermions (see also 72.15.Qm Scattering mechanisms and Kondo effect in electronic conduction of metals and alloys) 75.20.Ck, Nonmetals 75.20.En, Metals and alloys 75.20.-g, Diamagnetism, paramagnetism, and superparamagnetism 75.20.-gxx, Diamagnetism, paramagnetism, and superparamagnetism 75.10.Pq, Spin chain models 75.10.Nr, Spin-glass and other random models 75.10.Jm, Quantized spin models 75.10.Lp, Band and itinerant models 75.10.Hk, Classical spin models 75.10.Dg, Crystal-field theory and spin Hamiltonians 75.10.-b, General theory and models of magnetic ordering (see also 05.50.+q Lattice theory and statistics) 75.10.-bxx, General theory and models of magnetic ordering (see also 05.50.+q Lattice theory and statistics) 75., Magnetic properties and materials (for magnetic properties related to treatment conditions, see 81.40.Rs; for magnetic properties of superconductors, see 74.25.Ha; for magnetic properties of rocks and minerals, see 91.60.Pn) 74.81.Bd, Granular, melt-textured, amorphous and composite superconductors 74.81.Fa, Josephson junction arrays and wire networks 74.90.+n, Other topics in superconductivity (restricted to new topics in section 74) 74.78.Na, Mesoscopic and nanoscale systems 74.81.-g, Inhomogeneous superconductors and superconducting systems 74.81.-gxx, Inhomogeneous superconductors and superconducting systems 74.78.-w, Superconducting films and low-dimensional structures 74.78.Bz, High-Tc films 74.78.Db, Low-Tc films 74.78.Fk, Multilayers, superlattices, heterostructures 74.72.Jt, Other cuprates, including Tl and Hg-based cuprates 74.78.-wxx, Superconducting films and low-dimensional structures 74.72.Bk, Y-based cuprates 74.72.Dn, La-based cuprates 74.72.Hs, Bi-based cuprates 74.70.Kn, Organic superconductors 74.70.Pq, Ruthenates 74.70.Tx, Heavy-fermion superconductors 74.70.Wz, Fullerenes and related materials 74.72.-hxx, Cuprate superconductors (high-Tc and insulating parent compounds) 74.72.-h, Cuprate superconductors (high-Tc and insulating parent compounds) 74.70.Dd, Ternary, quaternary and multinary compounds (including Chevrel phases, borocarbides, etc.) 74.70.-b, Superconducting materials (for cuprates see 74.72.-h) 74.70.Ad, Metals; alloys and binary compounds (including A15, MgB2, etc.) 74.62.Fj, Pressure effects 74.62.Yb, Other effects 74.70.-bxx, Superconducting materials (for cuprates see 74.72.-h) 74.62.Dh, Effects of crystal defects, doping and substitution 74.62.Bf, Effects of material synthesis, crystal structure, and chemical 74.62.-c, Transition temperature variations 74.62.-cxx, Transition temperature variations 74.50.+r, Tunneling phenomena; point contacts, weak links, Josephson effects (for SQUIDs, see 85.25.Dq; for Josephson devices, see 85.25.Cp; for Josephson junction arrays, see 74.81.Fa) 74.45.+c, Proximity effects; Andreev effect; SN and SNS junctions 74.25.Op, Mixed states, critical fields, and surface sheaths 74.25.Qt, Vortex lattices, flux pinning, flux creep 74.25.Sv, Critical currents 74.40.+k, Fluctuations (noise, chaos, nonequilibrium superconductivity, localization, etc.) 74.25.Nf, Response to electromagnetic fields (nuclear magnetic resonance, surface impedance, etc.) 74.25.Kc, Phonons 74.25.Ld, Mechanical and acoustical properties, elasticity, and ultrasonic attenuation 74.25.Jb, Electronic structure 74.25.Ha, Magnetic properties 74.25.Gz, Optical properties 74.25.-q, Properties of type I and type II superconductors 74.25.Bt, Thermodynamic properties 74.25.Dw, Superconductivity phase diagrams 74.25.Fy, Transport properties (electric and thermal conductivity, thermoelectric effects, etc.) 74.25.-qxx, Properties of type I and type II superconductors 74.20.Rp, Pairing symmetries (other than s-wave) 74.20.Mn, Nonconventional mechanisms (spin fluctuations, polarons and bipolarons, resonating valence bond model, anyon mechanism, marginal Fermi liquid, Luttinger liquid, etc.) 74.20.-z, Theories and models of superconducting state 74.20.De, Phenomenological theories (two-fluid, Ginzburg-Landau, etc.) 74.20.Fg, BCS theory and its development 74.10.+v, Occurrence, potential candidates 74.20.-zxx, Theories and models of superconducting state 74., Superconductivity (for superconducting devices, see 85.25.-j) 73.63.Kv, Quantum dots 73.63.Nm, Quantum wires 73.63.Rt, Nanoscale contacts 73.90.+f, Other topics in electronic structure and electrical properties of surfaces, interfaces, thin films, and low-dimensional structures (Restricted to new topics in section 73) 73.63.Fg, Nanotubes 73.63.Hs, Quantum wells 73.63.Bd, Nanocrystalline materials 73.63.-bxx, Electronic transport in nanoscale materials and structures (see also 73.23.-b Electronic transport in mesoscopic systems) 73.63.-b, Electronic transport in nanoscale materials and structures (see also 73.23.-b Electronic transport in mesoscopic systems) 73.61.Wp, Fullerenes and related materials 73.61.Ng, Insulators 73.61.Ph, Polymers; organic compounds 73.61.Le, Other inorganic semiconductors 73.61.Ga, II-VI semiconductors 73.61.Jc, Amorphous semiconductors; glasses 73.61.Ey, III-V semiconductors 73.61.At, Metal and metallic alloys 73.61.Cw, Elemental semiconductors 73.61.-r, Electrical properties of specific thin films (for optical properties of thin films, see 78.20.-e and 78.66.-w; for magnetic properties of thin films, see 75.70.-i) 73.61.-rxx, Electrical properties of specific thin films (for optical properties of thin films, see 78.20.-e and 78.66.-w; for magnetic properties of thin films, see 75.70.-i) 73.50.Td, Noise processes and phenomena 73.50.Rb, Acoustoelectric and magnetoacoustic effects 73.50.Pz, Photoconduction and photovoltaic effects 73.50.Lw, Thermoelectric effects 73.50.Mx, High-frequency effects; plasma effects 73.50.Jt, Galvanomagnetic and other magnetotransport effects (including thermomagnetic effects) 73.50.Gr, Charge carriers: generation, recombination, lifetime, trapping, mean free paths 73.50.Fq, High-field and nonlinear effects 73.50.Dn, Low-field transport and mobility; piezoresistance 73.50.Bk, General theory, scattering mechanisms 73.50.-h, Electronic transport phenomena in thin films (for electronic transport in mesoscopic systems, see 73.23.-b; see also 73.40.-c Electronic transport in interface structures; for electronic transport in nanoscale materials and structures, see 73.63.-b) 73.50.-hxx, Electronic transport phenomena in thin films (for electronic transport in mesoscopic systems, see 73.23.-b; see also 73.40.-c Electronic transport in interface structures; for electronic transport in nanoscale materials and structures, see 73.63.-b) 73.43.Qt, Magnetoresistance (see also 75.47.-m Magnetotransport phenomena; materials for magnetotransport in magnetic properties and materials) 73.43.Jn, Tunneling 73.43.Lp, Collective excitations 73.43.Nq, Quantum phase transitions 73.43.Fj, Novel experimental methods; measurements 73.43.-f, Quantum Hall effects 73.43.Cd, Theory and modeling 73.40.Vz, Semiconductor-metal-semiconductor structures 73.43.-fxx, Quantum Hall effects 73.40.Sx, Metal-semiconductor-metal structures 73.40.Ty, Semiconductor-insulator-semiconductor structures 73.40.Rw, Metal-insulator-metal structures 73.40.Mr, Semiconductor-electrolyte contacts 73.40.Ns, Metal-nonmetal contacts 73.40.Qv, Metal-insulator-semiconductor structures (including semiconductor-to-insulator) 73.40.Lq, Other semiconductor-to-semiconductor contacts, p-n junctions, and 73.40.Gk, Tunneling (for tunneling in quantum Hall effects, see 73.43.Jn) 73.40.Jn, Metal-to-metal contacts 73.40.Kp, III-V semiconductor-to-semiconductor contacts, p-n junctions, and 73.40.Ei, Rectification 73.40.-c, Electronic transport in interface structures 73.40.Cg, Contact resistance, contact potential 73.40.-cxx, Electronic transport in interface structures 73.25.+i, Surface conductivity and carrier phenomena 73.30.+y, Surface double layers, Schottky barriers, and work functions (see also 82.45.Mp Thin layers, films, monolayers, membranes in 73.23.Ra, Persistent currents 73.23.Hk, Coulomb blockade; single-electron tunneling 73.23.Ad, Ballistic transport (see also 75.47.Jn Ballistic magnetoresistance in magnetic properties and materials) 73.22.Lp, Collective excitations 73.23.-bxx, Electronic transport in mesoscopic systems 73.23.-b, Electronic transport in mesoscopic systems 73.22.Gk, Broken symmetry phases 73.22.Dj, Single particle states 73.22.-f, Electronic structure of nanoscale materials: clusters, nanoparticles, nanotubes, and nanocrystals 73.21.La, Quantum dots 73.22.-fxx, Electronic structure of nanoscale materials: clusters, nanoparticles, nanotubes, and nanocrystals 73.21.Hb, Quantum wires 73.21.Ac, Multilayers 73.21.Cd, Superlattices 73.21.Fg, Quantum wells 73.21.-b, Electron states and collective excitations in multilayers, quantum wells, mesoscopic, and nanoscale systems (for electron states in nanoscale materials, see 73.22.-f) 73.21.-bxx, Electron states and collective excitations in multilayers, quantum wells, mesoscopic, and nanoscale systems (for electron states in nanoscale materials, see 73.22.-f) 73.20.Qt, Electron solids 73.20.Mf, Collective excitations (including excitons, polarons, plasmons and other charge-density excitations) (for collective excitations in quantum Hall effects, see 73.43.Lp) 73.20.Jc, Delocalization processes 73.20.Fz, Weak or Anderson localization 73.20.Hb, Impurity and defect levels; energy states of adsorbed species 73.20.At, Surface states, band structure, electron density of states 73.20.-r, Electron states at surfaces and interfaces 73.20.-rxx, Electron states at surfaces and interfaces 73., Electronic structure and electrical properties of surfaces, interfaces, thin films, and low-dimensional structures (for electronic structure and electrical properties of superconducting films and low-dimensional structures, see 74.78.-w; for computational 72.80.Tm, Composite materials 72.90.+y, Other topics in electronic transport in condensed matter (restricted to new topics in section 72) 72.80.Rj, Fullerenes and related materials 72.80.Sk, Insulators 72.80.Ng, Disordered solids 72.80.Ph, Liquid semiconductors 72.80.Ga, Transition-metal compounds 72.80.Jc, Other crystalline inorganic semiconductors 72.80.Le, Polymers; organic compounds (including organic semiconductors) 72.80.Cw, Elemental semiconductors 72.80.Ey, III-V and II-VI semiconductors 72.80.-r, Conductivity of specific materials (for conductivity of metals and alloys, see 72.15.-v) 72.60.+g, Mixed conductivity and conductivity transitions 72.70.+m, Noise processes and phenomena 72.80.-rxx, Conductivity of specific materials (for conductivity of metals and alloys, see 72.15.-v) 72.55.+s, Magnetoacoustic effects (see also 75.80.+q Magnetomechanical and magnetoelectric effects, magnetostriction) 72.50.+b, Acoustoelectric effects 72.30.+q, High-frequency effects; plasma effects 72.40.+w, Photoconduction and photovoltaic effects 72.25.Mk, Spin transport through interfaces 72.25.Pn, Current-driven spin pumping 72.25.Rb, Spin relaxation and scattering 72.25.Fe, Optical creation of spin polarized carriers 72.25.Hg, Electrical injection of spin polarized carriers 72.25.Dc, Spin polarized transport in semiconductors 72.25.Ba, Spin polarized transport in metals 72.25.-bxx, Spin polarized transport (for ballistic magnetoresistance, see 75.47.Jn; for spin polarized transport devices, see 85.75.-d) 72.25.-b, Spin polarized transport (for ballistic magnetoresistance, see 75.47.Jn; for spin polarized transport devices, see 85.75.-d) 72.20.Pa, Thermoelectric and thermomagnetic effects 72.20.My, Galvanomagnetic and other magnetotransport effects 72.20.Jv, Charge carriers: generation, recombination, lifetime, and trapping 72.20.Ht, High-field and nonlinear effects 72.20.Ee, Mobility edges; hopping transport 72.20.Fr, Low-field transport and mobility; piezoresistance 72.20.Dp, General theory, scattering mechanisms 72.20.-i, Conductivity phenomena in semiconductors and insulators (see also 66.70.+f Nonelectronic thermal conduction in solids) 72.20.-ixx, Conductivity phenomena in semiconductors and insulators (see also 66.70.+f Nonelectronic thermal conduction in solids) 72.15.Rn, Localization effects (Anderson or weak localization) 72.15.Qm, Scattering mechanisms and Kondo effect (see also 75.20.Hr Local moments in compounds and alloys; Kondo effect, valence fluctuations, heavy fermions in magnetic properties and materials) 72.15.Lh, Relaxation times and mean free paths 72.15.Nj, Collective modes (e.g., in one-dimensional conductors) 72.15.Jf, Thermoelectric and thermomagnetic effects 72.15.Gd, Galvanomagnetic and other magnetotransport effects (see also 75.47.-m Magnetotransport phenomena; materials for magnetotransport) 72.15.Eb, Electrical and thermal conduction in crystalline metals and alloys 72.15.-v, Electronic conduction in metals and alloys 72.15.Cz, Electrical and thermal conduction in amorphous and liquid metals and alloys 72.10.Di, Scattering by phonons, magnons, and other nonlocalized excitations (see also 71.45.-d Collective effects in electronic structure of bulk materials) 72.10.Fk, Scattering by point defects, dislocations, surfaces, and other 72.15.-vxx, Electronic conduction in metals and alloys 72.10.-d, Theory of electronic transport; scattering mechanisms 72.10.Bg, General formulation of transport theory 72.10.-dxx, Theory of electronic transport; scattering mechanisms 72., Electronic transport in condensed matter (for electronic transport in surfaces, interfaces, and thin films, see section 73; for electrical properties related to treatment conditions, see 81.40.Rs; for transport properties of superconductors, see 74.25.Fy) 71.70.Jp, Nuclear states and interactions 71.90.+q, Other topics in electronic structure (restricted to new topics in section 71) 71.70.Di, Landau levels 71.70.Ej, Spin-orbit coupling, Zeeman and Stark splitting, Jahn-Teller effect 71.70.Fk, Strain-induced splitting 71.70.Gm, Exchange interactions 71.70.Ch, Crystal and ligand fields 71.70.-d, Level splitting and interactions (see also 73.20.-r Surface and interface electron states; 75.30.Et Exchange and superexchange interactions) 71.70.-dxx, Level splitting and interactions (see also 73.20.-r Surface and interface electron states; 75.30.Et Exchange and superexchange interactions) 71.60.+z, Positron states (for positron annihilation, see 78.70.Bj) 71.55.Jv, Disordered structures; amorphous and glassy solids 71.55.Ht, Other nonmetals 71.55.Eq, III-V semiconductors 71.55.Gs, II-VI semiconductors 71.55.-i, Impurity and defect levels 71.55.Ak, Metals, semimetals, and alloys 71.55.Cn, Elemental semiconductors 71.45.Lr, Charge-density-wave systems (see also 75.30.Fv Spin-density waves) 71.55.-ixx, Impurity and defect levels 71.45.Gm, Exchange, correlation, dielectric and magnetic response functions, plasmons 71.45.-dxx, Collective effects 71.45.-d, Collective effects 71.38.Ht, Self-trapped or small polarons 71.38.Mx, Bipolarons 71.38.Fp, Large or Fröhlich polarons 71.38.-k, Polarons and electron-phonon interactions (see also 63.20.Kr Phonon-electron interactions in lattices) 71.38.Cn, Mass renormalization in metals 71.35.Pq, Charged excitons (trions) 71.36.+c, Polaritons (including photon-phonon and photon-magnon interactions) 71.38.-kxx, Polarons and electron-phonon interactions (see also 63.20.Kr Phonon-electron interactions in lattices) 71.35.Ji, Excitons in magnetic fields; magnetoexcitons 71.35.Ee, Electron-hole drops and electron-hole plasma 71.35.Lk, Collective effects (Bose effects, phase space filling, and excitonic phase transitions) 71.35.Gg, Exciton-mediated interactions 71.35.Aa, Frenkel excitons and self-trapped excitons 71.35.Cc, Intrinsic properties of excitons; optical absorption spectra 71.35.-yxx, Excitons and related phenomena 71.35.-y, Excitons and related phenomena 71.30.+h, Metal-insulator transitions and other electronic transitions 71.28.+d, Narrow-band systems; intermediate-valence solids (for magnetic aspects, see 75.20.Hr and 75.30.Mb in magnetic properties and materials) 71.27.+a, Strongly correlated electron systems; heavy fermions 71.23.Ft, Quasicrystals 71.23.Cq, Amorphous semiconductors, metallic glasses, glasses 71.23.An, Theories and models; localized states 71.23.-k, Electronic structure of disordered solids 71.23.-kxx, Electronic structure of disordered solids 71.22.+i, Electronic structure of liquid metals and semiconductors and their alloys 71.20.Rv, Polymers and organic compounds 71.20.Tx, Fullerenes and related materials; intercalation compounds 71.20.Mq, Elemental semiconductors 71.20.Nr, Semiconductor compounds 71.20.Ps, Other inorganic compounds 71.20.Lp, Intermetallic compounds 71.20.Dg, Alkali and alkaline earth metals 71.20.Eh, Rare earth metals and alloys 71.20.Gj, Other metals and alloys 71.20.Be, Transition metals and alloys 71.20.-b, Electron density of states and band structure of crystalline solids (for electronic structure of superconductors, see 74.25.Jb) 71.20.-bxx, Electron density of states and band structure of crystalline solids (for electronic structure of superconductors, see 74.25.Jb) 71.15.Rf, Relativistic effects 71.18.+y, Fermi surface: calculations and measurements; effective mass, g factor 71.15.Pd, Molecular dynamics calculations (Car-Parrinello) and other numerical simulations 71.15.Qe, Excited states: methodology (see also 71.10.Li Excited states and pairing interactions in model systems) 71.15.Mb, Density functional theory, local density approximation, gradient and 71.15.Nc, Total energy and cohesive energy calculations 71.15.Dx, Computational methodology (Brillouin zone sampling, iterative diagonalization, pseudopotential construction) 71.15.Ap, Basis sets (LCAO, plane-wave, APW, etc.) and related methodology (scattering methods, ASA, linearized methods, etc.) 71.15.-m, Methods of electronic structure calculations (see also 31.15.-p Calculations and mathematical techniques in atomic and molecular 71.15.-mxx, Methods of electronic structure calculations (see also 31.15.-p Calculations and mathematical techniques in atomic and molecular 71.10.Pm, Fermions in reduced dimensions (anyons, composite fermions, Luttinger liquid, etc.) (for anyon mechanism in superconductors, see 74.20.Mn) 71.10.Li, Excited states and pairing interactions in model systems 71.10.Fd, Lattice fermion models (Hubbard model, etc.) 71.10.Hf, Non-Fermi-liquid ground states, electron phase diagrams and phase transitions in model systems 71.10.Ay, Fermi-liquid theory and other phenomenological models 71.10.Ca, Electron gas, Fermi gas 71.10.-w, Theories and models of many-electron systems 71.10.-wxx, Theories and models of many-electron systems 70., CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND 71., Electronic structure of bulk materials (see section 73 for electronic structure of surfaces, interfaces, low-dimensional structures, and nanomaterials; for electronic structure of superconductors, see 74.25.Jb) 68.70.+w, Whiskers and dendrites (growth, structure, and nonelectronic 68.90.+g, Other topics in structure, and nonelectronic properties of surfaces and interfaces; thin films and low-dimensional structures (restricted to new topics in section 68) 68.65.Hb, Quantum dots 68.65.La, Quantum wires 68.65.Fg, Quantum wells 68.65.Ac, Multilayers 68.65.Cd, Superlattices 68.65.-k, Low-dimensional, mesoscopic, and nanoscale systems: structure and nonelectronic properties (for structure of nanoscale materials, see 61.46.+w; for magnetic properties of interfaces, see 75.70.Cn; for superconducting properties, see 74.78.-w; for optical 68.65.-kxx, Low-dimensional, mesoscopic, and nanoscale systems: structure and nonelectronic properties (for structure of nanoscale materials, see 61.46.+w; for magnetic properties of interfaces, see 75.70.Cn; for superconducting properties, see 74.78.-w; for optical 68.60.Dv, Thermal stability; thermal effects 68.60.Wm, Other nonelectronic physical properties 68.60.Bs, Mechanical and acoustical properties 68.60.-p, Physical properties of thin films, nonelectronic 68.60.-pxx, Physical properties of thin films, nonelectronic 68.55.Nq, Composition and phase identification 68.55.Ln, Defects and impurities: doping, implantation, distribution, concentration, etc. (for diffusion of impurities, see 66.30.Jt) 68.55.Jk, Structure and morphology; thickness; crystalline orientation and 68.55.Ac, Nucleation and growth: microscopic aspects 68.55.-a, Thin film structure and morphology (for methods of thin film deposition, film growth and epitaxy, see 81.15.-z) 68.55.-axx, Thin film structure and morphology (for methods of thin film deposition, film growth and epitaxy, see 81.15.-z) 68.49.Uv, X-ray standing waves 68.49.Jk, Electron scattering from surfaces 68.49.Sf, Ion scattering from surfaces (charge transfer, sputtering, SIMS) 68.49.Df, Molecule scattering from surfaces (energy transfer, resonances, trapping) 68.49.Fg, Cluster scattering from surfaces 68.49.Bc, Atom scattering from surfaces (diffraction and energy transfer) 68.49.-h, Surface characterization by particle-surface scattering (see also 34.50.Dy Interactions of atoms and molecules with surfaces; photon and electron emission; neutralization of ions in atomic and molecular collision processes and interactions) 68.49.-hxx, Surface characterization by particle-surface scattering (see also 34.50.Dy Interactions of atoms and molecules with surfaces; photon and electron emission; neutralization of ions in atomic and molecular collision processes and interactions) 68.47.Jn, Clusters on oxide surfaces 68.47.Mn, Polymer surfaces 68.47.Pe, Langmuir-Blodgett films on solids; polymers on surfaces; biological molecules on surfaces 68.47.Gh, Oxide surfaces 68.47.De, Metallic surfaces 68.47.Fg, Semiconductor surfaces 68.43.Vx, Thermal desorption 68.47.-bxx, Solid-gas/vacuum interfaces: types of surfaces 68.47.-b, Solid-gas/vacuum interfaces: types of surfaces 68.43.Pq, Adsorbate vibrations 68.43.Rs, Electron stimulated desorption 68.43.Tj, Photon stimulated desorption 68.43.Mn, Adsorption/desorption kinetics 68.43.Hn, Structure of assemblies of adsorbates (two- and three-dimensional 68.43.Jk, Diffusion of adsorbates, kinetics of coarsening and aggregation 68.43.De, Statistical mechanics of adsorbates 68.43.Fg, Adsorbate structure (binding sites, geometry) 68.43.Bc, Ab initio calculations of adsorbate structure and reactions (for electronic structure of adsorbates, see 73.20.Hb; for adsorbate reactions, see also 82.65.+r Surface and interface chemistry; heterogeneous catalysis at surfaces) 68.43.-hxx, Chemisorption/physisorption: adsorbates on surfaces 68.43.-h, Chemisorption/physisorption: adsorbates on surfaces 68.37.Tj, Acoustic force microscopy 68.37.Uv, Near-field scanning microscopy and spectroscopy 68.37.Vj, Field emission and field-ion microscopy 68.37.Xy, Scanning Auger microscopy, photoelectron microscopy 68.37.Yz, X-ray microscopy 68.37.Rt, Magnetic force microscopy (MFM) 68.37.Nq, Low energy electron microscopy (LEEM) 68.37.Ps, Atomic force microscopy (AFM) 68.37.Hk, Scanning electron microscopy (SEM) (including EBIC) 68.37.Lp, Transmission electron microscopy (TEM) (including STEM, HRTEM, etc.) 68.37.-d, Microscopy of surfaces, interfaces, and thin films 68.37.Ef, Scanning tunneling microscopy (including chemistry induced with STM) 68.37.-dxx, Microscopy of surfaces, interfaces, and thin films 68.35.Np, Adhesion (for polymer adhesion, see 82.35.Gh) 68.35.Rh, Phase transitions and critical phenomena 68.35.Ja, Surface and interface dynamics and vibrations 68.35.Md, Surface thermodynamics, surface energies (see also 05.70.Np Interface and surface thermodynamics in statistical physics, thermodynamics and nonlinear dynamical systems) 68.35.Gy, Mechanical properties; surface strains 68.35.Iv, Acoustical properties 68.35.Ct, Interface structure and roughness 68.35.Dv, Composition, segregation; defects and impurities 68.35.Fx, Diffusion; interface formation (see also 66.30.-h Diffusion in solids, for diffusion of adsorbates, see 68.43.Jk) 68.35.Af, Atomic scale friction 68.35.Bs, Structure of clean surfaces (reconstruction) 68.35.-p, Solid surfaces and solid-solid interfaces: Structure and energetics 68.35.-pxx, Solid surfaces and solid-solid interfaces: Structure and energetics 68.18.Jk, Phase transitions 68.18.Fg, Structure: measurements and simulations 68.18.-g, Langmuir-Blodgett films on liquids (for L-B films on solids, see 68.47.Pe) 68.18.-gxx, Langmuir-Blodgett films on liquids (for L-B films on solids, see 68.47.Pe) 68.08.De, Structure, measurements and simulations 68.15.+e, Liquid thin films 68.08.Bc, Wetting 68.08.-p, Liquid-solid interfaces 68.08.-pxx, Liquid-solid interfaces 68.05.Cf, Structure, measurements and simulations 68.05.Gh, Interfacial properties of microemulsions 68.05.-n, Liquid-liquid interfaces 68.03.Kn, Dynamics (capillary waves) 68.05.-nxx, Liquid-liquid interfaces 68.03.Fg, Evaporation and condensation 68.03.Hj, Structure, measurements and simulations 68.03.-g, Gas-liquid and vacuum-liquid interfaces 68.03.Cd, Surface tension and related phenomena 68.03.-gxx, Gas-liquid and vacuum-liquid interfaces 67.80.Mg, Defects, impurities, and diffusion 67.90.+z, Other topics in quantum fluids and solids; liquid and solid helium (restricted to new topics in section 67) 68., Surfaces and interfaces; thin films and low-dimensional systems (structure and nonelectronic properties) (for surface and interface chemistry, see 82.65.+r, for surface magnetism, see 75.70.Rf) 67.80.-s, Solid helium and related quantum crystals 67.80.Cx, Structure, lattice dynamics, and sound propagation 67.80.Gb, Thermal properties 67.80.Jd, Magnetic properties and nuclear magnetic resonance 67.80.-sxx, Solid helium and related quantum crystals 67.70.+n, Films (including physical adsorption) 67.60.Dm, He I-3He 67.60.Fp, He II-3He 67.60.Hr, Dilute superfluid 3He in He II 67.60.Js, Ions in liquid 3He-4He mixtures 67.65.+z, Spin-polarized hydrogen and helium 67.60.-g, Mixed systems; liquid 3He, 4He mixtures 67.60.-gxx, Mixed systems; liquid 3He, 4He mixtures 67.57.Lm, Spin dynamics 67.57.Np, Behavior near interfaces 67.57.Pq, Impurities 67.57.Gh, Ions in superfluid 3He 67.57.Hi, Transport properties 67.57.Jj, Collective modes 67.57.Fg, Textures and vortices 67.57.Bc, Thermodynamic properties 67.57.De, Superflow and hydrodynamics 67.55.Lf, Impurities 67.57.-zxx, Superfluid phase of liquid 3He 67.57.-z, Superfluid phase of liquid 3He 67.55.Ig, Ions in normal liquid 3He 67.55.Jd, Collective modes 67.55.Fa, Hydrodynamics 67.55.Hc, Transport properties 67.55.-s, Normal phase of liquid 3He 67.55.Cx, Thermodynamic properties 67.55.-sxx, Normal phase of liquid 3He 67.40.Yv, Impurities and other defects 67.40.Mj, First sound 67.40.Pm, Transport processes, second and other sounds, and thermal counterflow; Kapitza resistance 67.40.Vs, Vortices and turbulence 67.40.Rp, Films and weak link transport 67.40.Jg, Ions in liquid 4He 67.40.Kh, Thermodynamic properties 67.40.Fd, Dynamics of relaxation phenomena 67.40.Hf, Hydrodynamics in specific geometries, flow in narrow channels 67.40.Db, Quantum statistical theory; ground state, elementary excitations 67.40.-w, Boson degeneracy and superfluidity of 4He 67.40.Bz, Phenomenology and two-fluid models 67.40.-wxx, Boson degeneracy and superfluidity of 4He 67.20.+k, Quantum effects on the structure and dynamics of nondegenerate fluids (e.g., normal phase liquid 4He) 66.70.+f, Nonelectronic thermal conduction and heat-pulse propagation in solids; thermal waves (for thermal conduction in metals and alloys, see 72.15.Cz and 72.15.Eb) 67., Quantum fluids and solids; liquid and solid helium (see also 05.30.-d Quantum statistical mechanics) 66.90.+r, Other topics in nonelectronic transport properties of condensed matter (restricted to new topics in section 66) 66.30.Xj, Thermal diffusivity 66.35.+a, Quantum tunneling of defects 66.60.+a, Thermal conduction in nonmetallic liquids (for thermal conduction in liquid metals, see 72.15.Cz) 66.30.Pa, Diffusion in nanoscale solids 66.30.Qa, Electromigration 66.30.Lw, Diffusion of other defects 66.30.Ny, Chemical interdiffusion; diffusion barriers 66.30.Fq, Self-diffusion in metals, semimetals, and alloys 66.30.Hs, Self-diffusion and ionic conduction in nonmetals 66.30.Jt, Diffusion of impurities 66.30.-h, Diffusion in solids (for surface and interface diffusion, see68.35.Fx) 66.30.Dn, Theory of diffusion and ionic conduction in solids 66.30.-hxx, Diffusion in solids (for surface and interface diffusion, see68.35.Fx) 66.10.Cb, Diffusion and thermal diffusion (for osmosis in biological systems, see 82.39.Wj) 66.10.Ed, Ionic conduction 66.20.+d, Viscosity of liquids; diffusive momentum transport 66.10.-x, Diffusion and ionic conduction in liquids 66.10.-xxx, Diffusion and ionic conduction in liquids 65.90.+i, Other topics in thermal properties of condensed matter (restricted to new topics in section 65) 66., Transport properties of condensed matter (nonelectronic) 65.80.+n, Thermal properties of small particles, nanocrystals, nanotubes (see also 82.60.Qr Thermodynamics of nanoparticles in physical chemistry and chemical physics) 65.60.+a, Thermal properties of amorphous solids and glasses: heat capacity, thermal expansion, etc. 65.40.Ba, Heat capacity 65.40.De, Thermal expansion; thermomechanical effects 65.40.Gr, Entropy and other thermodynamical quantities 65.40.-b, Thermal properties of crystalline solids (for specific heat of superconductors, see 74.25.Bt; for specific heat of magnetic systems, see 75.40.Cx) 65.40.-bxx, Thermal properties of crystalline solids (for specific heat of superconductors, see 74.25.Bt; for specific heat of magnetic systems, see 75.40.Cx) 65.20.+w, Thermal properties of liquids: heat capacity, thermal expansion, 65., Thermal properties of condensed matter (see also 05.70.-a Thermodynamics and section 44 Heat transfer; for thermodynamic properties of quantum fluids and solids, see section 67; for thermal properties of thin films, see 68.60.Dv; for nonelectronic thermal 64.90.+b, Other topics in equations of state, phase equilibria, and phase transitions (restricted to new topics in section 64) 64.75.+g, Solubility, segregation, and mixing; phase separation (see also 82.60.Lf Thermodynamics of solutions) 64.70.Rh, Commensurate-incommensurate transitions 64.70.Pf, Glass transitions 64.70.Nd, Structural transitions in nanoscale materials 64.70.Md, Transitions in liquid crystals 64.70.-p, Specific phase transitions 64.70.Dv, Solid-liquid transitions 64.70.Fx, Liquid-vapor transitions 64.70.Hz, Solid-vapor transitions 64.70.Ja, Liquid-liquid transitions 64.70.Kb, Solid-solid transitions (see also 61.50.Ks Crystallographic aspects of phase transformations; pressure effects; 75.30.Kz and 77.80.Bh for magnetic and ferroelectric transitions, respectively; for material science aspects, see 81.30.-t) 64.70.-pxx, Specific phase transitions 64.60.Kw, Multicritical points 64.60.My, Metastable phases 64.60.Qb, Nucleation (see also 82.60.Nh Thermodynamics of nucleation in physical chemistry and chemical physics) 64.60.Fr, Equilibrium properties near critical points, critical exponents 64.60.Ht, Dynamic critical phenomena 64.60.Cn, Order-disorder transformations; statistical mechanics of model 64.60.Ak, Renormalization-group, fractal, and percolation studies of phase transitions (see also 61.43.Hv Fractals; macroscopic aggregates) 64.60.-i, General studies of phase transitions (see also 63.70.+h Statistical mechanics of lattice vibrations and displacive phase transitions; for critical phenomena in solid surfaces and interfaces, and in magnetism, see 68.35.Rh, and 75.40.-s, respectively) 64.60.-ixx, General studies of phase transitions (see also 63.70.+h Statistical mechanics of lattice vibrations and displacive phase transitions; for critical phenomena in solid surfaces and interfaces, and in magnetism, see 68.35.Rh, and 75.40.-s, respectively) 64.30.+t, Equations of state of specific substances 64., Equations of state, phase equilibria, and phase transitions (see also 82.60.-s Chemical thermodynamics) 64.10.+h, General theory of equations of state and phase equilibria (see also 05.70.Ce Thermodynamic functions and equations of state in thermodynamics) 63.50.+x, Vibrational states in disordered systems 63.70.+h, Statistical mechanics of lattice vibrations and displacive phase transitions 63.90.+t, Other topics in lattice dynamics (restricted to new topics in section 63) 63.20.Pw, Localized modes 63.20.Ry, Anharmonic lattice modes 63.22.+m, Phonons or vibrational states in low-dimensional structures and nanoscale materials 63.20.Mt, Phonon-defect interactions 63.20.Kr, Phonon-electron and phonon-phonon interactions 63.20.Ls, Phonon interactions with other quasiparticles 63.20.Dj, Phonon states and bands, normal modes, and phonon dispersion 63.20.-e, Phonons in crystal lattices (for phonons in superconductors, see 74.25.Kc) 63.20.-exx, Phonons in crystal lattices (for phonons in superconductors, see 74.25.Kc) 63.10.+a, General theory 62.90.+k, Other topics in mechanical and acoustical properties of condensed matter (restricted to new topics in section 62) 63., Lattice dynamics (see also 78.30.-j Infrared and Raman spectra; for surface and interface vibrations, see 68.35.Ja; for adsorbate vibrations, see 68.43.Pq) 62.80.+f, Ultrasonic relaxation (for ultrasonic attenuation in superconductors, see 74.25.Ld) 62.60.+v, Acoustical properties of liquids (see also 43.35.+d in acoustics) 62.65.+k, Acoustical properties of solids 62.50.+p, High-pressure and shock wave effects in solids and liquids (for high pressure apparatus and techniques, see 07.35.+k; for shock wave initiated high-pressure chemistry, see 82.40.Fp) 62.40.+i, Anelasticity, internal friction, stress relaxation, and mechanical resonances (see also 81.40.Jj Elasticity and anelasticity) 62.30.+d, Mechanical and elastic waves; vibrations (see also 43.40.+s Structural acoustics and vibration; 46.40.-f Vibrations and mechanical waves in continuum mechanics of solids) 62.20.Hg, Creep 62.20.Mk, Fatigue, brittleness, fracture, and cracks 62.20.Qp, Tribology and hardness (see also 46.55.+d Tribology and mechanical contacts in continuum mechanics of solids) 62.25.+g, Mechanical properties of nanoscale materials 62.20.-x, Mechanical properties of solids 62.20.Dc, Elasticity, elastic constants 62.20.Fe, Deformation and plasticity (including yield, ductility, and superplasticity) (see also 83.50.-v Deformation and flow in 62.20.-xxx, Mechanical properties of solids 62.10.+s, Mechanical properties of liquids (for viscosity of liquids, see 66.20.-x) 62., Mechanical and acoustical properties of condensed matter (for mechanical properties of interfaces and thin films, see 68.35.Gy, and 68.35.Iv; and 68.60Bs; for mechanical and acoustical properties related to treatment conditions, see 81.40.Jj, Lm, Np in ma 61.85.+p, Channeling phenomena (blocking, energy loss, etc.) 61.90.+d, Other topics in structure of solids and liquids (restricted to new topics in section 61) 61.82.Rx, Nanocrystalline materials 61.82.Pv, Polymers, organic compounds 61.82.Ms, Insulators 61.82.Bg, Metals and alloys 61.82.Fk, Semiconductors 61.82.-d, Radiation effects on specific materials 61.80.Jh, Ion radiation effects (for ion implantation, see 61.72.Tt, Vv, Ww) 61.80.Lj, Atom and molecule irradiation effects 61.82.-dxx, Radiation effects on specific materials 61.80.Cb, X-ray effects 61.80.Ed, gamma-ray effects 61.80.Fe, Electrons and positron radiation effects 61.80.Hg, Neutron radiation effects 61.80.Az, Theory and models of radiation effects 61.80.Ba, Ultraviolet, visible, and infrared radiation effects (including laser radiation) 61.80.-xxx, Physical radiation effects, radiation damage (for photochemical reactions, see 82.50.-m) 61.80.-x, Physical radiation effects, radiation damage (for photochemical reactions, see 82.50.-m) 61.72.Yx, Interaction between different crystal defects; gettering effect 61.72.Ww, Doping and impurity implantation in other materials 61.72.Vv, Doping and impurity implantation in III-V and II-VI semiconductors 61.72.Tt, Doping and impurity implantation in germanium and silicon 61.72.Ss, Impurity concentration, distribution, and gradients (for impurities in thin films, see 68.55.Ln; see also 66.30.Jt Diffusion of 61.72.Nn, Stacking faults and other planar or extended defects 61.72.Qq, Microscopic defects (voids, inclusions, etc.) 61.72.Mm, Grain and twin boundaries 61.72.Lk, Linear defects: dislocations, disclinations 61.72.Ji, Point defects (vacancies, interstitials, color centers, etc.) and 61.72.Hh, Indirect evidence of dislocations and other defects (resistivity, slip, creep, strains, internal friction, EPR, NMR, etc.) 61.72.Ff, Direct observation of dislocations and other defects (etch pits, decoration, electron microscopy, x-ray topography, etc.) 61.72.Cc, Kinetics of defect formation and annealing 61.72.Dd, Experimental determination of defects by diffraction and scattering 61.72.Bb, Theories and models of crystal defects 61.72.-y, Defects and impurities in crystals; microstructure (for radiation induced defects, see 61.80.-x; for defects in surfaces, interfaces and thin films, see 68.35.Dv and 68.55.Ln; see also 85.40.Ry Impurity doping, diffusion and ion implantation technology) 61.68.+n, Crystallographic databases 61.72.-yxx, Defects and impurities in crystals; microstructure (for radiation induced defects, see 61.80.-x; for defects in surfaces, interfaces and thin films, see 68.35.Dv and 68.55.Ln; see also 85.40.Ry Impurity doping, diffusion and ion implantation technology) 61.66.Fn, Inorganic compounds 61.66.Hq, Organic compounds 61.66.Bi, Elemental solids 61.66.Dk, Alloys 61.50.Nw, Crystal stoichiometry 61.66.-fxx, Structure of specific crystalline solids (for surface structure, see 68.35.Bs) 61.66.-f, Structure of specific crystalline solids (for surface structure, see 68.35.Bs) 61.50.Ks, Crystallographic aspects of phase transformations; pressure effects (see also 81.30.Hd in materials science) 61.50.Lt, Crystal binding; cohesive energy 61.50.Ah, Theory of crystal structure, crystal symmetry; calculations and 61.48.+c, Fullerenes and fullerene-related materials (see also 81.05.Tp Fullerenes and related materials in materials science) 61.50.-fxx, Crystalline state 61.50.-f, Crystalline state 61.44.-n, Semi-periodic solids 61.44.Br, Quasicrystals 61.44.Fw, Incommensurate crystals 61.46.+w, Nanoscale materials: clusters, nanoparticles, nanotubes, and nanocrystals (see also 36.40.-c Atomic and molecular clusters; for fabrication and characterization of nanoscale materials, see 81.07.-b in materials science) 61.43.Gt, Powders, porous materials 61.43.Hv, Fractals; macroscopic aggregates (including diffusion-limited aggregates) 61.44.-nxx, Semi-periodic solids 61.43.Er, Other amorphous solids 61.43.Fs, Glasses 61.43.Bn, Structural modeling: serial-addition models, computer simulation 61.43.Dq, Amorphous semiconductors, metals, and alloys 61.43.-j, Disordered solids (see also 81.05.Gc, 81.05.Kf, and 81.05.Rm in materials science; for photoluminescence of disordered solids, see 78.55.Mb and 78.55.Qr) 61.43.-jxx, Disordered solids (see also 81.05.Gc, 81.05.Kf, and 81.05.Rm in materials science; for photoluminescence of disordered solids, see 78.55.Mb and 78.55.Qr) 61.30.St, Lyotropic phases 61.30.Vx, Polymer liquid crystals 61.41.+e, Polymers, elastomers, and plastics (see also 81.05.Lg in materials science; for rheology of polymers, see section 83; for polymer reactions and polymenization, see 82.35.-x in physical chemistry and chemical physics) 61.30.Pq, Microconfined liquid crystals: droplets, cylinders, randomly confined liquid crystals, polymer dispersed liquid crystals, and 61.30.Jf, Defects in liquid crystals 61.30.Mp, Blue phases and other defect-phases 61.30.Hn, Surface phenomena: alignment, anchoring, anchoring transitions, surface-induced layering, surface-induced ordering, wetting, prewetting transitions, and wetting transitions (see also section 68 Surfaces and interfaces; thin films and low-dimensional syste 61.30.Dk, Continuum models and theories of liquid crystal structure 61.30.Eb, Experimental determinations of smectic, nematic, cholesteric, and 61.30.Gd, Orientational order of liquid crystals; electric and magnetic field 61.30.Cz, Molecular and microscopic models and theories of liquid crystal 61.30.-v, Liquid crystals (for phase transitions in liquid crystals, see 64.70.Md; for liquid crystals as dielectric materials, see 77.84.Nh; for liquid crystals as optical materials, see 42.70.Df; for liquid crystal devices, see 42.79.Kt) 61.30.-vxx, Liquid crystals (for phase transitions in liquid crystals, see 64.70.Md; for liquid crystals as dielectric materials, see 77.84.Nh; for liquid crystals as optical materials, see 42.70.Df; for liquid crystal devices, see 42.79.Kt) 61.25.Mv, Liquid metals and alloys 61.25.Hq, Macromolecular and polymer solutions; polymer melts; swelling 61.25.Em, Molecular liquids 61.25.Bi, Liquid noble gases 61.20.Ne, Structure of simple liquids 61.20.Qg, Structure of associated liquids: electrolytes, molten salts, etc. 61.25.-f, Studies of specific liquid structures 61.25.-fxx, Studies of specific liquid structures 61.20.-p, Structure of liquids 61.20.Gy, Theory and models of liquid structure 61.20.Ja, Computer simulation of liquid structure 61.20.Lc, Time-dependent properties; relaxation (for glass transitions, see 64.70.Pf) 61.18.Fs, Magnetic resonance techniques; Mössbauer spectroscopy 61.20.-pxx, Structure of liquids 61.14.Qp, X-ray photoelectron diffraction 61.18.-jxx, Other methods of structure determination 61.18.-j, Other methods of structure determination 61.18.Bn, Atom, molecule, and ion scattering 61.14.Nm, Electron holography 61.14.Lj, Convergent-beam electron diffraction, selected-area electron diffraction, nanodiffraction 61.14.Dc, Theories of diffraction and scattering 61.14.Hg, Low-energy electron diffraction (LEED) and reflection high-energy electron diffraction (RHEED) 61.14.-x, Electron diffraction and scattering (for electron diffractometers, see 07.78.+s) 61.14.-xxx, Electron diffraction and scattering (for electron diffractometers, see 07.78.+s) 61.12.Ld, Neutron diffraction 61.12.Ha, Neutron reflectometry 61.12.Ex, Neutron scattering (including small-angle scattering) 61.12.Bt, Theories of diffraction and scattering 61.10.Kw, X-ray reflectometry (surfaces, interfaces, films) 61.10.Nz, X-ray diffraction 61.12.-qxx, Neutron diffraction and scattering 61.12.-q, Neutron diffraction and scattering 61.10.Eq, X-ray scattering (including small-angle scattering) 61.10.Ht, X-ray absorption spectroscopy: EXAFS, NEXAFS, XANES, etc. 61.10.Dp, Theories of diffraction and scattering 61.10.-i, X-ray diffraction and scattering (for x-ray diffractometers, see 07.85.Jy; for x-ray studies of crystal defects, see 61.72.Dd, Ff) 61.10.-ixx, X-ray diffraction and scattering (for x-ray diffractometers, see 07.85.Jy; for x-ray studies of crystal defects, see 61.72.Dd, Ff) 61., Structure of solids and liquids; crystallography (for surface, interface, and thin film structure, see section 68) 60., CONDENSED MATTER: STRUCTURAL, MECHANICAL AND THERMAL PROPERTIES 52.90.+z, Other topics in physics of plasmas and electric discharges (restricted to new topics in section 52) 52.80.Yr, Discharges for spectral sources (including inductively coupled plasma) 52.80.Tn, Other gas discharges 52.80.Vp, Discharge in vacuum 52.80.Wq, Discharge in liquids and solids (for electric breakdown in liquids, see 77.22.Jp) 52.80.Pi, High-frequency and RF discharges 52.80.Qj, Explosions; exploding wires 52.80.Sm, Magnetoactive discharges (e.g., Penning discharges) 52.80.Dy, Low-field and Townsend discharges 52.80.Hc, Glow; corona 52.80.Mg, Arcs; sparks; lightning; atmospheric electricity (see also 92.60.Pw in hydrospheric and atomospheric geophysics) 52.80.-s, Electric discharges (see also 51.50.+v Electrical properties of gases; for plasma reactions including flowing afterglow and electric discharges, see 82.33.Xj in physical chemistry and chemical physics) 52.80.-sxx, Electric discharges (see also 51.50.+v Electrical properties of gases; for plasma reactions including flowing afterglow and electric discharges, see 82.33.Xj in physical chemistry and chemical physics) 52.77.Fv, High-pressure, high-current plasmas (plasma spray, arc welding, etc.) (see also 81.15.Rs Spray coating techniques) 52.77.Dq, Plasma-based ion implantation and deposition (see also 81.15.Jj Ion and electron beam-assisted deposition) 52.77.-j, Plasma applications 52.77.Bn, Etching and cleaning (see also 81.65.Cf Surface cleaning, etching, patterning in surface treatments) 52.77.-jxx, Plasma applications 52.75.Xx, Thermionic and filament-based sources (e.g., Q machines, double- and triple-plasma devices, etc.) 52.75.Hn, Plasma torches 52.75.Kq, Plasma switches (e.g., spark gaps) 52.75.Fk, Magnetohydrodynamic generators and thermionic convertors; plasma diodes (see also 84.60.Lw, Ny in direct-energy conversion and storage) 52.75.Di, Ion and plasma propulsion 52.75.-d, Plasma devices (for ion sources, see 29.25.Lg, Ni; for plasma sources, see 52.50.Dg) 52.75.-dxx, Plasma devices (for ion sources, see 29.25.Lg, Ni; for plasma sources, see 52.50.Dg) 52.72.+v, Laboratory studies of space- and astrophysical-plasma processes (see also 95.30.Qd in fundamental aspects of astrophysics and 94.20.-y and 94.30.-d in aeronomy and magnetospheric physics) 52.70.Kz, Optical (ultraviolet, visible, infrared) measurements 52.70.La, X-ray and gamma-ray measurements 52.70.Nc, Particle measurements 52.70.Gw, Radio-frequency and microwave measurements 52.70.Ds, Electric and magnetic measurements 52.65.Yy, Molecular dynamics methods 52.70.-mxx, Plasma diagnostic techniques and instrumentation 52.70.-m, Plasma diagnostic techniques and instrumentation 52.65.Ww, Hybrid methods 52.65.Vv, Perturbative methods 52.65.Tt, Gyrofluid and gyrokinetic simulations 52.65.Ff, Fokker-Planck and Vlasov equation 52.65.Kj, Magnetohydrodynamic and fluid equation 52.65.Pp, Monte Carlo methods 52.65.Rr, Particle-in-cell method 52.65.-yxx, Plasma simulation 52.65.-y, Plasma simulation 52.65.Cc, Particle orbit and trajectory 52.59.Ye, Plasma devices for generation of coherent radiation 52.59.Tb, Moderate-intensity beams 52.59.Wd, Emittance-dominated beams 52.59.Sa, Space-charge-dominated beams 52.59.Px, Hard X-ray sources 52.59.Qy, Wire array Z-pinches 52.59.Rz, Free-electron devices (for free-electron lasers, see 41.60.Cr) 52.59.Fn, Multistage accelerated heavy-ion beams 52.59.Hq, Dense plasma focus 52.59.Mv, High-voltage diodes (for high-current and high-voltage technology, see 84.70.+p) 52.59.Bi, Grid- and ion-diode-accelerated beams 52.59.Dk, Magneto-plasma accelerated plasmas 52.59.-f, Intense particle beams and radiation sources (see also 29.25.-t and 29.27.-a in instrumentation for particle and nuclear physics) 52.59.-fxx, Intense particle beams and radiation sources (see also 29.25.-t and 29.27.-a in instrumentation for particle and nuclear physics) 52.58.Qv, Electrostatic and high-frequency confinement 52.58.-cxx, Other confinement methods 52.58.-c, Other confinement methods 52.58.Ei, Light-ion inertial confinement 52.58.Hm, Heavy-ion inertial confinement 52.58.Lq, Z-pinches, plasma focus and other pinch devices 52.57.Kk, Fast ignition of compressed fusion fuels 52.57.-z, Laser inertial confinement 52.57.Bc, Target design and fabrication 52.57.Fg, Implosion symmetry and hydrodynamic instability (Rayleigh-Taylor, Richtmyer-Meshkov, imprint, etc.) 52.57.-zxx, Laser inertial confinement 52.55.Wq, Current drive; helicity injection 52.55.Rk, Power exhaust; divertors 52.55.Pi, Fusion products effects (e.g., alpha-particles, etc.), fast particle 52.55.Tn, Ideal and resistive MHD modes; kinetic modes 52.55.Jd, Magnetic mirrors, gas dynamic traps 52.55.Lf, Field-reversed configurations, rotamaks, astrons, ion rings, magnetized target fusion, and cusps 52.55.Hc, Stellarators, torsatrons, heliacs, bumpy tori, and other toroidal 52.55.Ip, Spheromaks 52.55.Ez, Theta pinch 52.55.Fa, Tokamaks, spherical tokamaks 52.55.-sxx, Magnetic confinement and equilibrium (see also 28.52.-s Fusion reactors) 52.55.-s, Magnetic confinement and equilibrium (see also 28.52.-s Fusion reactors) 52.55.Dy, General theory and basic studies of plasma lifetime, particle and heat loss, energy balance, field structure, etc. 52.50.Sw, Plasma heating by microwaves; ECR, LH, collisional heating 52.50.Qt, Plasma heating by radio-frequency fields; ICR, ICP, helicons 52.50.Lp, Plasma production and heating by shock waves and compression 52.50.Nr, Plasma heating by DC fields; ohmic heating, arcs 52.50.Jm, Plasma production and heating by laser beams (laser-foil, laser-cluster, etc.) 52.50.Gj, Plasma heating by particle beams 52.50.Dg, Plasma sources 52.50.-b, Plasma production and heating (for Electric discharges, see 52.80.-s) 52.50.-bxx, Plasma production and heating (for Electric discharges, see 52.80.-s) 52.40.Mj, Particle beam interactions in plasmas 52.40.Hf, Plasma-material interactions; boundary layer effects 52.40.Kh, Plasma sheaths 52.40.Fd, Plasma interactions with antennas; plasma-filled waveguides 52.40.-w, Plasma interactions (nonlaser) 52.40.Db, Electromagnetic (nonlaser) radiation interactions with plasma 52.38.Ph, X-ray, gamma-ray and particle generation 52.40.-wxx, Plasma interactions (nonlaser) 52.38.Mf, Laser ablation (see also 79.20.Ds, Laser-beam impact phenomena) 52.38.Kd, Laser-plasma acceleration of electrons and ions (see also 41.75.Jv Laser-driven acceleration in electromagnetism; electron and ion 52.38.Hb, Self-focussing, channeling, and filamentation in plasmas 52.38.Fz, Laser-induced magnetic fields in plasmas 52.38.Dx, Laser light absorption in plasmas (collisional, parametric, etc.) 52.38.Bv, Rayleigh scattering; stimulated Brillouin and Raman scattering 52.35.We, Plasma vorticity 52.38.-rxx, Laser-plasma interactions (for plasma production and heating by laser beams, see 52.50.Jm) 52.38.-r, Laser-plasma interactions (for plasma production and heating by laser beams, see 52.50.Jm) 52.35.Vd, Magnetic reconnection 52.35.Sb, Solitons; BGK modes 52.35.Tc, Shock waves and discontinuities 52.35.Ra, Plasma turbulence 52.35.Qz, Microinstabilities (ion-acoustic, two-stream, loss-cone, beam-plasma, drift, ion- or electron-cyclotron, etc.) 52.35.Py, Macroinstabilities (hydromagnetic, e.g., kink, fire-hose, mirror, ballooning, tearing, trapped-particle, flute, Rayleigh-Taylor, etc.) 52.35.Mw, Nonlinear phenomena: waves, wave propagation, and other interactions (including parametric effects, mode coupling, ponderomotive effects, 52.35.Lv, Other linear waves 52.35.Kt, Drift waves 52.35.Hr, Electromagnetic waves (e.g., electron-cyclotron, Whistler, Bernstein, upper hybrid, lower hybrid) 52.35.Dm, Sound waves 52.35.Fp, Electrostatic waves and oscillations (e.g., ion-acoustic waves) 52.35.Bj, Magnetohydrodynamic waves (e.g., Alfven waves) 52.30.Gz, Gyrokinetics 52.35.-gxx, Waves, oscillations, and instabilities in plasmas and intense beams 52.35.-g, Waves, oscillations, and instabilities in plasmas and intense beams 52.30.Ex, Two-fluid and multi-fluid plasmas 52.30.Cv, Magnetohydrodynamics (including electron magnetohydrodynamics) (see also 47.65.+a in fluid dynamics; for MHD generators, see 52.75.Fk) 52.27.Ny, Relativistic plasmas 52.30.-qxx, Plasma dynamics and flow 52.30.-q, Plasma dynamics and flow 52.27.Gr, Strongly-coupled plasmas 52.27.Jt, Nonneutral plasmas 52.27.Lw, Dusty or complex plasmas; plasma crystals 52.27.Ep, Electron-positron plasmas 52.27.Cm, Multicomponent and negative-ion plasmas 52.27.Aj, Single-component, electron-positive-ion plasmas 52.27.-h, Basic studies of specific kinds of plasmas 52.25.Ya, Neutrals in plasmas 52.27.-hxx, Basic studies of specific kinds of plasmas 52.25.Vy, Impurities in plasmas 52.25.Xz, Magnetized plasmas 52.25.Tx, Emission, absorption, and scattering of particles 52.25.Mq, Dielectric properties 52.25.Os, Emission, absorption, and scattering of electromagnetic radiation 52.25.Kn, Thermodynamics of plasmas 52.25.Jm, Ionization of plasmas 52.25.Gj, Fluctuation and chaos phenomena (for plasma turbulence, see 52.35.Ra; see also 05.45.-a Nonlinear dynamics and nonlinear dynamical systems) 52.25.Fi, Transport properties 52.25.Dg, Plasma kinetic equations 52.20.Fs, Electron collisions 52.20.Hv, Atomic, molecular, ion, and heavy-particle collisions 52.25.-bxx, Plasma properties (for chemical reactions in plasma, see 82.33.Xj) 52.25.-b, Plasma properties (for chemical reactions in plasma, see 82.33.Xj) 52.20.-j, Elementary processes in plasmas 52.20.Dq, Particle orbits 52.20.-jxx, Elementary processes in plasmas 52., Physics of plasmas and electric discharges (for astrophysical plasmas, see 95.30.Qd; for physics of the ionosphere and magnetosphere, see 94.20.-y and 94.30.-d respectively) 51.70.+f, Optical and dielectric properties 51.90.+r, Other topics in the physics of gases (restricted to new topics in section 51) 51.60.+a, Magnetic properties 51.50.+v, Electrical properties (ionization, breakdown, electron and ion mobility, etc.) (see also 52.80.-s Electric discharges in physics of plasmas) 51.35.+a, Mechanical properties; compressibility 51.40.+p, Acoustical properties (see also 43.28.+h Aeroacoustics and atmospheric sound) 51.30.+i, Thermodynamic properties, equations of state (see also 05.70.Ce Thermodynamic functions and equations of state in thermodynamics) 51.20.+d, Viscosity, diffusion, and thermal conductivity 51.10.+y, Kinetic and transport theory of gases (see also 05.20.Dd Kinetic theory in classical statistical mechanics) 50., PHYSICS OF GASES, PLASMAS, AND ELECTRIC DISCHARGES 51., Physics of gases 47.85.Gj, Aerodynamics 47.85.Kn, Hydraulic and pneumatic machinery 47.85.Np, Fluidics 47.90.+a, Other topics in fluid dynamics (restricted to new topics in section 47) 47.85.-g, Applied fluid mechanics 47.85.Dh, Hydrodynamics, hydraulics, hydrostatics 47.85.-gxx, Applied fluid mechanics 47.80.+v, Instrumentation for fluid dynamics (see also 83.85.-c-in rheology; 07.30.-t Vacuum apparatus and techniques) 47.75.+f, Relativistic fluid dynamics (for astrophysical aspects, see 95.30.Lz and 95.30.Qd in astronomy) 47.70.Mc, Radiation gas dynamics 47.70.Nd, Nonequilibrium gas dynamics 47.70.-nxx, Reactive, radiative, or nonequilibrium flows 47.70.-n, Reactive, radiative, or nonequilibrium flows 47.70.Fw, Chemically reactive flows (see also 83.80.Jx-in rheology) 47.65.+a, Magnetohydrodynamics and electrohydrodynamics (for MHD in plasma, see 52.30.Cv) 47.62.+q, Flow control 47.60.+i, Flows in ducts, channels, nozzles, and conduits (see also 83.50.Ha-in rheology) 47.55.Bx, Cavitation 47.55.Dz, Drops and bubbles 47.55.Hd, Stratified flows 47.55.Kf, Multiphase and particle-laden flows 47.55.Mh, Flows through porous media (for heat transfer in porous media, see 44.30.+v) 47.55.-txx, Nonhomogeneous flows 47.55.-t, Nonhomogeneous flows 47.52.+j, Chaos (see also 05.45.-a Nonlinear dynamics and nonlinear dynamical systems; 83.60.Wc Flow instabilities) 47.53.+n, Fractals 47.54.+r, Pattern selection; pattern formation 47.45.Dt, Free molecular flows 47.45.Gx, Slip flows 47.45.Nd, Accommodation 47.50.+d, Non-Newtonian fluid flows (see also 83.50.-v Deformation and flow) 47.45.-nxx, Rarefied gas dynamics 47.45.-n, Rarefied gas dynamics 47.40.Nm, Shock wave interactions and shock effects (for shock wave initiated chemical reactions, see 82.40.Fp) 47.40.Ki, Supersonic and hypersonic flows 47.40.Hg, Transonic flows 47.40.Dc, General subsonic flows 47.40.-x, Compressible flows; shock and detonation phenomena (see also 28.70 Nuclear explosions; 52.35.Tc Shock waves and discontinuities in plasma; 83.56.Uv-in rheology) 47.40.-xxx, Compressible flows; shock and detonation phenomena (see also 28.70 Nuclear explosions; 52.35.Tc Shock waves and discontinuities in plasma; 83.56.Uv-in rheology) 47.37.+q, Hydrodynamic aspects of superfluidity (see also 67.40.Hf and 67.57.De-in quantum fluids and solids) 47.32.Ff, Separated flows 47.35.+i, Hydrodynamic waves 47.32.Cc, Vortex dynamics 47.32.-y, Rotational flow and vorticity 47.27.Wg, Jets 47.32.-yxx, Rotational flow and vorticity 47.27.Vf, Wakes 47.27.Te, Convection and heat transfer (see also 44.25.+f in heat transfer) 47.27.Sd, Noise (turbulence generated) 47.27.Qb, Turbulent diffusion 47.27.Rc, Turbulence control 47.27.Pa, Thick shear flows 47.27.Nz, Boundary layer and shear turbulence 47.27.Lx, Wall-bounded thin shear flows 47.27.Jv, High-Reynolds-number turbulence 47.27.Gs, Isotropic turbulence; homogeneous turbulence 47.27.Eq, Turbulence simulation and modeling 47.27.Ak, Fundamentals 47.27.Cn, Transition to turbulence 47.27.-i, Turbulent flows, convection, and heat transfer 47.27.-ixx, Turbulent flows, convection, and heat transfer 47.20.Ma, Interfacial instability 47.20.Pc, Receptivity 47.20.Lz, Secondary instability 47.20.Ky, Nonlinearity (including bifurcation theory) 47.20.Cq, Inviscid instability 47.20.Dr, Surface-tension-driven instability 47.20.Ft, Instability of shear flows 47.20.Gv, Viscous instability 47.20.Hw, Morphological instability; phase changes (see also section 64 Equations of state, phase equilibria, and phase transitions) 47.20.-kxx, Hydrodynamic stability 47.20.-k, Hydrodynamic stability 47.20.Bp, Buoyancy-driven instability 47.17.+e, Mechanical properties of fluids (see also 62.10.+s Mechanical 47.15.Rq, Laminar flows in cavities 47.15.Hg, Potential flows 47.15.Ki, Inviscid flows with vorticity 47.15.Pn, Laminar suspensions 47.15.Gf, Low-Reynolds-number (creeping) flows 47.15.-xxx, Laminar flows 47.15.-x, Laminar flows 47.15.Cb, Laminar boundary layers 47.15.Fe, Stability of laminar flows 47.11.+j, Computational methods in fluid dynamics (see also 83.85.Pt Computational fluid dynamics-in rheology; 02.70.-c Computational techniques in mathematical methods in physics) 47., Fluid dynamics (for fluid dynamics of quantum fluids, see section 67; see also section 83 Rheology) 47.10.+g, General theory (see also 83.10.-y-in rheology) 46.90.+s, Other topics in continuum mechanics of solids (restricted to new topics in section 46) 46.70.-p, Application of continuum mechanics to structures 46.70.De, Beams, plates and shells 46.80.+j, Measurement methods and techniques in continuum mechanics of solids (see also 07.10.-h Mechanical instruments, equipment, and 46.70.Lk, Other structures 46.70.Hg, Membranes, rods and strings 46.70.-pxx, Application of continuum mechanics to structures 46.65.+g, Random phenomena and media (see also 05.40.-a in statistical physics, thermodynamics and nonlinear dynamical systems) 46.55.+d, Tribology and mechanical contacts (see also 81.40.Pq Friction, lubrication and wear in materials science; 62.20.Qp Tribology and hardness in mechanical properties of solids) 46.50.+a, Fracture mechanics, fatigue and cracks (see also 62.20.Mk Fatigue, brittleness, fracture, and cracks in mechanical properties of 46.40.Jj, Aeroelasticity and hydroelasticity 46.40.Cd, Mechanical wave propagation (including diffraction, scattering, and 46.40.Ff, Resonance, damping and dynamic stability 46.40.-f, Vibrations and mechanical waves (see also 43.40.+s Structural acoustics and vibration; 62.30.+d Mechanical and elastic waves; vibrations in mechanical properties of solids) 46.35.+z, Viscoelasticity, plasticity, viscoplasticity (see also 83.60.Bc, Df, 46.40.-fxx, Vibrations and mechanical waves (see also 43.40.+s Structural acoustics and vibration; 62.30.+d Mechanical and elastic waves; vibrations in mechanical properties of solids) 46.32.+x, Static buckling and instability 46.25.Hf, Thermoelasticity and electromagnetic elasticity (electroelasticity, magnetoelasticity) 46.15.Ff, Perturbation and complex analysis methods 46.25.-yxx, Static elasticity 46.25.-y, Static elasticity 46.25.Cc, Theoretical studies 46.15.Cc, Variational and optimizational methods 46.15.-x, Computational methods in continuum mechanics (see also 02.70.-e Computational techniques in mathematical methods in physics) 46.15.-xxx, Computational methods in continuum mechanics (see also 02.70.-e Computational techniques in mathematical methods in physics) 46.05.+b, General theory of continuum mechanics of solidsb 46., Continuum mechanics of solids (see also 83.10.Ff in rheology) 45.80.+r, Control of mechanical systems (see also 46.80.+j Measurement methods and techniques in continuum mechanics of solids) 45.90.+t, Other topics in classical mechanics of discrete systems (restricted to new topics in section 45) 45.70.Vn, Granular models of complex systems; traffic flow 45.70.Qj, Pattern formation 45.70.Ht, Avalanches 45.70.Mg, Granular flow: mixing, segregation and stratification 45.70.Cc, Static sandpiles; granular compaction 45.70.-n, Granular systems (see also 05.65.+b Self-organized systems) 45.70.-nxx, Granular systems (see also 05.65.+b Self-organized systems) 45.50.-j, Dynamics and kinematics of a particle and a system of particles 45.50.Tn, Collisions 45.50.Jf, Few- and many-body systems 45.50.Pk, Celestial mechanics (see also 95.10.Ce in fundamental astronomy) 45.50.Dd, General motion 45.50.-jxx, Dynamics and kinematics of a particle and a system of particles 45.40.Ln, Robotics 45.40.Gj, Ballistics (projectiles; rockets) 45.40.Cc, Rigid body and gyroscope motion 45.40.-f, Dynamics and kinematics of rigid bodies 45.40.-fxx, Dynamics and kinematics of rigid bodies 45.30.+s, General linear dynamical systems (for nonlinear dynamical systems, see 05.45.-a) 45.20.Dd, Newtonian mechanics 45.20.Jj, Lagrangian and Hamiltonian mechanics 45.10.Na, Geometrical and tensorial methods 45.20.-dxx, Formalisms in classical mechanics 45.20.-d, Formalisms in classical mechanics 45.10.Hj, Perturbation and fractional calculus methods 45.10.-b, Computational methods in classical mechanics (see also 02.70.-c Computational techniques in mathematical methods in physics) 45.10.Db, Variational and optimization methods 45.10.-bxx, Computational methods in classical mechanics (see also 02.70.-c Computational techniques in mathematical methods in physics) 45.05.+x, General theory of classical mechanics of discrete systems 45., Classical mechanics of discrete systems 44.90.+c, Other topics in heat transfer (restricted to new topics in section 44) 44.40.+a, Thermal radiation 44.27.+g, Forced convection 44.35.+c, Heat flow in multiphase systems 44.30.+v, Heat flow in porous media 44.25.+f, Natural convection (see also 47.27.Te Convection and heat transfer in fluid dynamics) 44.20.+b, Boundary layer heat flow 44.15.+a, Channel and internal heat flow 44., Heat transfer 44.05.+e, Analytical and numerical techniques 44.10.+i, Heat conduction (see also 66.60.+a and 66.70.+f in transport properties of condensed matter) 43.75.+a, Music and musical instruments 43.80.+p, Bioacoustics 43.90.+v, Other topics in acoustics (restricted to new topics in section 43) 43.71.+m, Speech perception 43.72.+q, Speech processing and communication systems 43.70.+i, Speech production 43.64.+r, Physiological acoustics 43.66.+y, Psychological acoustics 43.60.+d, Acoustic signal processing 43.58.+z, Acoustical measurements and instrumentation 43.38.+n, Transduction; acoustical devices for the generation and reproduction 43.55.+p, Architectural acoustics 43.50.+y, Noise: its effects and control 43.40.+s, Structural acoustics and vibration 43., Acoustics 43.20.+g, General linear acoustics 43.25.+y, Nonlinear acoustics 43.28.+h, Aeroacoustics and atmospheric sound (see also 92.60.-e Meteorology) 43.30.+m, Underwater sound (see also 92.10.Vz-in physics of oceans) 43.35.+d, Ultrasonics, quantum acoustics, and physical effects of sound 42.90.+m, Other topics in optics (restricted to new topics in section 42) 42.88.+h, Environmental and radiation effects on optical elements, devices, and systems (see also 07.89.+b Environmental effects on instruments) 42.87.-dxx, Optical testing techniques 42.87.-d, Optical testing techniques 42.87.Bg, Phase shifting interferometry (see also 07.60.Ly Interferometers) 42.86.+b, Optical workshop techniques 42.82.Gw, Other integrated-optical elements and systems 42.82.Fv, Hybrid systems 42.82.Et, Waveguides, couplers, and arrays (for fiber waveguides, see 42.81.Qb) 42.82.Ds, Interconnects, including holographic interconnects (see also 42.79.Td Optical computers, logic elements, interconnects, switches; neural networks) 42.82.Bq, Design and performance testing of integrated-optical systems 42.82.Cr, Fabrication techniques; lithography, pattern transfer (see also 85.40.-e Microelectronics: LSI, VLSI, ULSI; integrated circuit fabrication technology) 42.82.-mxx, Integrated optics 42.82.-m, Integrated optics 42.81.Wg, Other fiber-optical devices (for fiber lasers, see 42.55.Wd) 42.81.Uv, Fiber networks (see also 42.79.Sz Optical communication systems, multiplexers, and demultiplexers) 42.81.Ht, Gradient-index (GRIN) fiber devices 42.81.Pa, Sensors, gyros 42.81.Qb, Fiber waveguides, couplers, and arrays 42.81.Gs, Birefringence, polarization 42.81.Dp, Propagation, scattering, and losses; solitons 42.81.Cn, Fiber testing and measurement of fiber parameters 42.81.-ixx, Fiber optics 42.81.-i, Fiber optics 42.81.Bm, Fabrication, cladding, and splicing 42.79.Wc, Optical coatings 42.79.Ta, Optical computers, logic elements, interconnects, switches; neural 42.79.Vb, Optical storage systems, optical disks (see also 42.40.Ht Hologram recording and readout methods) 42.79.Sz, Optical communication systems, multiplexers, and demultiplexers (for fiber networks, see 42.81.Uv) 42.79.Ry, Gradient-index (GRIN) devices (for fiber GRIN devices, see 42.81.Ht) 42.79.Mt, Schlieren devices 42.79.Qx, Range finders, remote sensing devices; laser Doppler velocimeters, SAR, and LIDAR (see also 42.68.Wt Remote sensing; LIDAR and adaptive 42.79.Pw, Imaging detectors and sensors (see also 85.60.Gz Photodetectors) 42.79.Nv, Optical frequency converters 42.79.Kr, Display devices, liquid-crystal devices (see also 85.60.Pg Display 42.79.Ls, Scanners, image intensifiers, and image converters (see also 85.60.-q Optoelectronic devices) 42.79.Jq, Acousto-optical devices (see also 43.38.Zp-in acoustics appendix) 42.79.Hp, Optical processors, correlators, and modulators 42.79.Gn, Optical waveguides and couplers (for fiber waveguides and waveguides in integrated optics, see 42.81.Qb and 42.82.Et, respectively) 42.79.Fm, Reflectors, beam splitters, and deflectors 42.79.Dj, Gratings (for holographic gratings, see 42.40.Eq) 42.79.Ek, Solar collectors and concentrators (see also 84.60.Jt Photoelectric conversion: solar cells and arrays) 42.79.Ci, Filters, zone plates, and polarizers 42.79.Bh, Lenses, prisms and mirrors 42.79.Ag, Apertures, collimators 42.79.-e, Optical elements, devices, and systems (for integrated optics, see 42.82.-m; for fiber optics, see 42.81.-i) 42.79.-exx, Optical elements, devices, and systems (for integrated optics, see 42.82.-m; for fiber optics, see 42.81.-i) 42.72.Bj, Visible and ultraviolet sources 42.72.Ai, Infrared sources 42.72.-g, Optical sources and standards (for lasers, see 42.55.-f; see also 07.57.Hm in instruments) 42.72.-gxx, Optical sources and standards (for lasers, see 42.55.-f; see also 07.57.Hm in instruments) 42.70.Qs, Photonic bandgap materials (for photonic crystal lasers, see42.55.Tv) 42.70.Nq, Other nonlinear optical materials; photorefractive and semiconductor materials 42.70.Mp, Nonlinear optical crystals (see also 77.84.-s Dielectric, piezoelectric, and ferroelectric materials) 42.70.Ln, Holographic recording materials; optical storage media 42.70.Km, Infrared transmitting materials 42.70.Jk, Polymers and organics 42.70.Gi, Light-sensitive materials 42.70.Hj, Laser materials 42.70.-a, Optical materials (see also 81.05.-t Specific materials: fabrication, treatment, testing and analysis) 42.70.Df, Liquid crystals (for structure of liquid crystals, see 61.30.-v) 42.70.Ce, Glasses, quartz 42.70.-axx, Optical materials (see also 81.05.-t Specific materials: fabrication, treatment, testing and analysis) 42.68.Wt, Remote sensing; LIDAR and adaptive systems 42.68.Xy, Ocean optics (see also 92.10.Pt Optical properties of sea water in physics of the oceans) 42.68.Sq, Image transmission and formation 42.68.Mj, Scattering, polarization (see also 94.10.Gb Absorption and scattering of radiation in physics of the neutral atmosphere) 42.68.Kh, Effects of air pollution (see also 92.60.Sz Air quality and air 42.68.Jg, Effects of aerosols (see also 92.60.Mt Particles and aerosols in 42.68.Ge, Effects of clouds and water; ice crystal phenomena (see also 92.60.Jq Water in the atmosphere; 92.60.Nv Cloud physics in 42.68.Ca, Spectral absorption by atmospheric gases (see also 94.10.Gb Absorption and scattering of radiation in physics of the neutral atmosphere) 42.68.Bz, Atmospheric turbulence effects (see also 92.60.Ek Convection, turbulence, and diffusion in meteorology) 42.68.-wxx, Atmospheric and ocean optics 42.68.-w, Atmospheric and ocean optics 42.68.Ay, Propagation, transmission, attenuation, and radiative transfer (see also 92.60.Ta Interaction of atmosphere with electromagnetic waves; propagation) 42.66.Si, Psychophysics of vision, visual perception; binocular vision 42.66.Qg, Scales for light and color detection 42.66.Lc, Vision: light detection, adaptation, and discrimination 42.66.Ne, Color vision: color detection, adaptation, and discrimination 42.66.Ew, Physiology of eye; optic-nerve structure and function 42.66.Ct, Anatomy and optics of eye 42.66.-pxx, Physiological optics 42.66.-p, Physiological optics 42.65.Yj, Optical parametric oscillators and amplifiers (see also 42.65.Lm Parametric down conversion and production of entangled photons) 42.65.Wi, Nonlinear waveguides 42.65.Tg, Optical solitons; nonlinear guided waves (for solitons in fibers, see 42.81.Dp) 42.65.Sf, Dynamics of nonlinear optical systems; optical instabilities, optical chaos and complexity, and optical spatio-temporal dynamics 42.65.Re, Ultrafast processes; optical pulse generation and pulse compression 42.65.Pc, Optical bistability, multistability, and switching, including local field effects (see also 42.60.Gd Q-switching; 42.79.Ta Optical computers, logic elements, interconnects, switches; neural networks) 42.65.Lm, Parametric down conversion and production of entangled photons (see also 42.50.Dv Nonclassical states of the electromagnetic field, including entangled photon states; quantum state engineering and measurements; for optical parametric oscillators and ampli 42.65.Jx, Beam trapping, self-focusing and defocusing; self-phase modulation 42.65.Ky, Frequency conversion; harmonic generation, including higher-order harmonic generation (see also 42.79.Nv Optical frequency converters) 42.65.Hw, Phase conjugation; photorefractive and Kerr effects 42.65.Es, Stimulated Brillouin and Rayleigh scattering 42.65.Dr, Stimulated Raman scattering; CARS (for Raman lasers, see 42.55.Ye) 42.62.Fi, Laser spectroscopy 42.65.-kxx, Nonlinear optics 42.65.-k, Nonlinear optics 42.65.An, Optical susceptibility, hyperpolarizability (see also 33.15.Mt Electric and magnetic moments, polarizability and magnetic 42.62.Cf, Industrial applications 42.62.Eh, Metrological applications; optical frequency synthesizers for precision spectroscopy (see also 06.20.-f Metrology, and 06.30.-k Measurements common to several branches of physics and astronomy) 42.62.Be, Biological and medical applications (see also 87.50.Hj, 87.54.Fj, 87.63.Lk, and 87.80.Cc in biological and medical physics) 42.62.-b, Laser applications 42.62.-bxx, Laser applications 42.60.Pk, Continuous operation 42.60.Rn, Relaxation oscillations and long pulse operation 42.60.Lh, Efficiency, stability, gain, and other operational parameters 42.60.Mi, Dynamical laser instabilities; noisy laser behavior 42.60.Jf, Beam characteristics: profile, intensity, and power; spatial pattern formation 42.60.Gd, Q-switching 42.60.Da, Resonators, cavities, amplifiers, arrays, and rings 42.60.Fc, Modulation, tuning, and mode locking 42.60.-vxx, Laser optical systems: design and operation 42.60.-v, Laser optical systems: design and operation 42.60.By, Design of specific laser systems 42.55.Zz, Random lasers 42.55.Vc, X- and gamma-ray lasers 42.55.Wd, Fiber lasers 42.55.Xi, Diode-pumped lasers 42.55.Ye, Raman lasers (see also 42.65.Dr Stimulated Raman scattering; CARS) 42.55.Tv, Photonic crystal lasers and coherent effects 42.55.Sa, Microcavity and microdisk lasers 42.55.Rz, Doped-insulator lasers and other solid state lasers 42.55.Mv, Dye lasers 42.55.Px, Semiconductor lasers; laser diodes 42.55.-fxx, Lasers 42.55.-f, Lasers 42.55.Ah, General laser theory 42.55.Ks, Chemical lasers (for chemiluminescence, see 78.60.Ps) 42.55.Lt, Gas lasers including excimer and metal-vapor lasers 42.50.Xa, Optical tests of quantum theory 42.50.Vk, Mechanical effects of light on atoms, molecules, electrons, and ions (see also 32.80.Pj and 33.80.Ps Optical cooling and trapping of atoms and molecules, respectively) 42.50.Nn, Quantum optical phenomena in absorbing, dispersive and conducting media 42.50.Pq, Cavity quantum electrodynamics; micromasers 42.50.St, Nonclassical interferometry, subwavelength lithography 42.50.Md, Optical transient phenomena: quantum beats, photon echo, free-induction decay, dephasings and revivals, optical nutation, and self-induced transparency 42.50.Lc, Quantum fluctuations, quantum noise, and quantum jumps 42.50.Hz, Strong-field excitation of optical transitions in quantum systems; multi-photon processes; dynamic Stark shift (for multiphoton ionization and excitation of atoms and molecules, see 32.80.Rn, and 33.80.Rm, respectively) 42.50.Fx, Cooperative phenomena in quantum optical systems 42.50.Gy, Effects of atomic coherence on propagation, absorption, and amplification of light; electromagnetically induced transparency and absorption 42.50.Dv, Nonclassical states of the electromagnetic field, including entangled photon states; quantum state engineering and measurements (see also 03.65.Ud Entanglement and quantum nonlocality (e.g. EPR paradox, Bell's inequalities, GHZ states, etc.) 42.50.Ct, Quantum description of interaction of light and matter; related 42.50.-p, Quantum optics (for lasers, see 42.55.-f and 42.60.-v; see also 42.65.-k Nonlinear optics; 03.65.-w Quantum mechanics) 42.50.Ar, Photon statistics and coherence theory 42.50.-pxx, Quantum optics (for lasers, see 42.55.-f and 42.60.-v; see also 42.65.-k Nonlinear optics; 03.65.-w Quantum mechanics) 42.40.My, Applications 42.40.Pa, Volume holograms 42.40.Lx, Diffraction efficiency, resolution, and other hologram characteristics 42.40.Jv, Computer-generated holograms 42.40.Kw, Holographic interferometry; other holographic techniques (see also 07.60.Ly Interferometers) 42.40.Ht, Hologram recording and readout methods (see also 42.70.Ln Holographic recording materials; optical storage media) 42.40.-i, Holography 42.40.Eq, Holographic optical elements; holographic gratings 42.30.Wb, Image reconstruction; tomography 42.40.-ixx, Holography 42.30.Va, Image forming and processing 42.30.Tz, Computer vision; robotic vision 42.30.Ms, Speckle and moire patterns 42.30.Rx, Phase retrieval 42.30.Sy, Pattern recognition 42.30.Lr, Modulation and optical transfer functions 42.30.-d, Imaging and optical processing 42.30.Kq, Fourier optics 42.25.Ja, Polarization 42.25.Kb, Coherence 42.25.Lc, Birefringence 42.30.-dxx, Imaging and optical processing 42.25.Fx, Diffraction and scattering 42.25.Gy, Edge and boundary effects; reflection and refraction 42.25.Hz, Interference 42.25.Dd, Wave propagation in random media 42.25.-pxx, Wave optics 42.25.-p, Wave optics 42.25.Bs, Wave propagation, transmission and absorption (see also 41.20.Jb-in electromagnetism; for propagation in atmosphere, see 42.68.Ay; see also 52.40.Db Electromagnetic (nonlaser) radiation interactions with plasma and 52.38-r Laser-plasma interactions-in pla 42.15.-i, Geometrical optics 42.15.Dp, Wave fronts and ray tracing 42.15.Eq, Optical system design 42.15.Fr, Aberrations 42.15.-ixx, Geometrical optics 42., Optics (for optical properties of gases, see 51.70.+f; for optical properties of bulk materials and thin films, see 78.20.-e; for x-ray optics, see 41.50.+h) 41.90.+e, Other topics in electromagnetism; electron and ion optics (restricted to new topics in section 41) 41.85.Qg, Beam analyzers, beam monitors, and Faraday cups 41.85.Si, Beam collimators, monochromators 41.85.Ne, Electrostatic lenses, septa 41.85.Gy, Chromatic and geometrical aberrations 41.85.Ja, Beam transport 41.85.Lc, Beam focusing and bending magnets, wiggler magnets, and quadrupoles (see also 07.55.Db-in instruments; for superconducting magnets, see 84.71.Ba) 41.85.Ar, Beam extraction, beam injection 41.85.Ct, Beam shaping, beam splitting 41.85.Ew, Beam profile, beam intensity 41.85.-p, Beam optics (see also 07.77.Ka Charged-particle beam sources and detectors; 29.27.-a Beams in particle accelerators) 41.75.Lx, Other advanced accelerator concepts 41.85.-pxx, Beam optics (see also 07.77.Ka Charged-particle beam sources and detectors; 29.27.-a Beams in particle accelerators) 41.75.Jv, Laser-driven acceleration (see also 52.38.-r Laser-plasma interactions in plasma physics) 41.75.Fr, Electron and positron beams 41.75.Ht, Relativistic electron and positron beams 41.75.Ak, Positive-ion beams 41.75.Cn, Negative-ion beams 41.75.-i, Charged-particle beams 41.75.-ixx, Charged-particle beams 41.60.Bq, Cherenkov radiation 41.60.Cr, Free-electron lasers (see also 52.59.Rz Free-electron devices-in plasma physics) 41.60.-mxx, Radiation by moving charges 41.60.-m, Radiation by moving charges 41.60.Ap, Synchrotron radiation (for synchrotron radiation instrumentation, see 07.85.Qe) 41.50.+h, X-ray beams and x-ray optics (see also 07.85.Fv in instruments) 41.20.Jb, Electromagnetic wave propagation; radiowave propagation (for light propagation, see 42.25.Bs; for electromagnetic waves in plasma, see 52.35.Hr; for ionospheric and magnetospheric propagation, see 94.20.Bb and 94.30.Tt) 41.20.Gz, Magnetostatics; magnetic shielding, magnetic induction, boundary-value problems 41.20.Cv, Electrostatics; Poisson and Laplace equations, boundary-value 39.90.+d, Other instrumentation and techniques for atomic and molecular physics (restricted to new topics in section 39) 40., ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID MECHANICS 41., Electromagnetism; electron and ion optics 41.20.-qxx, Applied classical electromagnetism 41.20.-q, Applied classical electromagnetism 39.30.+w, Spectroscopic techniques (see also 78.47.+p Time-resolved optical spectroscopies and other ultrafast optical measurements in condensed matter and 82.53.Kp Coherent spectroscopy of atoms and molecules in physical chemistry and chemical physics) 39.25.+k, Atom manipulation (scanning probe microscopy, laser cooling, etc.) (see also 82.37.Gk STM and AFM manipulations of a single molecule in physical chemistry and chemical physics; for atom manipulation in nanofabrication and processing, see 81.16.Ta) 39.20.+q, Atom interferometry techniques (see also 03.75.-b Matter waves, and 03.75.Dg Atom and neutron interferometry in quantum mechanics) 39.10.+j, Atomic and molecular beam sources and techniques 39., Instrumentation and techniques for atomic and molecular physics 36.90.+f, Other exotic atoms and molecules; macromolecules; clusters (restricted to new topics in section 36) 36.40.Vz, Optical properties of clusters 36.40.Wa, Charged clusters 36.40.Gk, Plasma and collective effects in clusters 36.40.Jn, Reactivity of clusters 36.40.Mr, Spectroscopy and geometrical structure of clusters 36.40.Qv, Stability and fragmentation of clusters 36.40.Sx, Diffusion and dynamics of clusters 36.40.Ei, Phase transitions in clusters 36.40.Cg, Electronic and magnetic properties of clusters 36.40.-c, Atomic and molecular clusters (see also 61.46.+w in condensed matter) 36.20.Kd, Electronic structure and spectra 36.40.-cxx, Atomic and molecular clusters (see also 61.46.+w in condensed matter) 36.20.Ng, Vibrational and rotational structure, infrared and Raman spectra 36.20.Ey, Conformation (statistics and dynamics) 36.20.Fz, Constitution (chains and sequences) 36.20.Hb, Configuration (bonds, dimensions) 36.20.Cw, Molecular weights, dispersity 36.20.-r, Macromolecules and polymer molecules (for polymer reactions and polymerization, see 82.35.-x; for biological macromolecules and polymers, see 87.14.-g and 87.15.-v) 36.20.-rxx, Macromolecules and polymer molecules (for polymer reactions and polymerization, see 82.35.-x; for biological macromolecules and polymers, see 87.14.-g and 87.15.-v) 36.10.Gv, Mesonic atoms and molecules, hyperonic atoms and molecules 36.10.-k, Exotic atoms and molecules (containing mesons, muons, and other unusual particles) 36.10.Dr, Positronium, muonium, muonic atoms and molecules 36., Exotic atoms and molecules; macromolecules; clusters 36.10.-kxx, Exotic atoms and molecules (containing mesons, muons, and other unusual particles) 34.90.+q, Other topics in atomic and molecular collision processes and interactions (restricted to new topics in section 34) 34.80.Qb, Laser-modified scattering 34.85.+x, Positron scattering 34.80.Pa, Coherence and correlation in electron scattering 34.80.Nz, Spin dependence of cross sections; polarized electron beam 34.80.My, Fundamental electron inelastic processes in weakly ionized gases 34.80.Ht, Dissociation and dissociative attachment by electron impact 34.80.Kw, Electron-ion scattering; excitation and ionization 34.80.Lx, Electron-ion recombination and electron attachment 34.80.Gs, Molecular excitation and ionization by electron impact 34.80.Dp, Atomic excitation and ionization by electron impact 34.80.Bm, Elastic scattering of electrons by atoms and molecules 34.80.-i, Electron scattering (for electron collisions in plasma, see 52.20.Fs in physics of plasmas) 34.80.-ixx, Electron scattering (for electron collisions in plasma, see 52.20.Fs in physics of plasmas) 34.50.Rk, Laser-modified scattering and reactions 34.60.+z, Scattering in highly excited states (e.g., Rydberg states) 34.50.Gb, Electronic excitation and ionization of molecules; intermediate molecular states (including lifetimes, state mixing, etc.) 34.70.+e, Charge transfer (for charge transfer reactions, see 82.30.Fi in physical chemistry and chemical physics) 34.50.Pi, State-to-state scattering analyses 34.50.Lf, Chemical reactions, energy disposal, and angular distribution, as studied by atomic and molecular beams 34.50.Fa, Electronic excitation and ionization of atoms (including beam-foil excitation and ionization) 34.50.Ez, Rotational and vibrational energy transfer 34.50.Dy, Interactions of atoms and molecules with surfaces; photon and electron emission; neutralization of ions (for surface characterization by particle-surface scattering, see 68.49.-h in surfaces, interfaces, thin films, and low-dimensional structures) 34.50.-s, Scattering of atoms and molecules 34.20.Mq, Potential energy surfaces for collisions (see also 82.20.Kh Potential energy surfaces for chemical reactions; for potential energy surface in electronic structure calculations, see 31.50.-x) 34.50.Bw, Energy loss and stopping power 34.50.-sxx, Scattering of atoms and molecules 34.30.+h, Intramolecular energy transfer; intramolecular dynamics; dynamics of van der Waals molecules 34.20.Cf, Interatomic potentials and forces 34.20.Gj, Intermolecular and atom-molecule potentials and forces 34.20.-b, Interatomic and intermolecular potentials and forces, potential energy surfaces for collisions 34.20.-bxx, Interatomic and intermolecular potentials and forces, potential energy surfaces for collisions 34.10.+x, General theories and models of atomic and molecular collisions and interactions (including statistical theories, transition state, stochastic and trajectory models, etc.) 34., Atomic and molecular collision processes and interactions (for atomic, molecular, and ionic collisions in plasma, see 52.20.Hv) 33.90.+h, Other topics in molecular properties and interactions with photons (restricted to new topics in section 33) 33.80.Gj, Diffuse spectra; predissociation, photodissociation 33.80.Ps, Optical cooling of molecules; trapping 33.80.Rv, Multiphoton ionization and excitation to highly excited states (e.g., Rydberg states) 33.80.Wz, Other multiphoton processes 33.80.-bxx, Photon interactions with molecules (see also 42.50.-p Quantum 33.80.-b, Photon interactions with molecules (see also 42.50.-p Quantum 33.80.Be, Level crossing and optical pumping 33.80.Eh, Autoionization, photoionization, and photodetachment 33.70.Jg, Line and band widths, shapes, and shifts 33.70.Fd, Absolute and relative line and band intensities 33.70.-wxx, Intensities and shapes of molecular spectral lines and bands 33.70.-w, Intensities and shapes of molecular spectral lines and bands 33.70.Ca, Oscillator and band strengths, lifetimes, transition moments, and Franck-Condon factors 33.55.Fi, Other magnetooptical and electrooptical effects 33.60.-qxx, Photoelectron spectra 33.60.-q, Photoelectron spectra 33.60.Cv, Ultraviolet and vacuum ultraviolet photoelectron spectra 33.60.Fy, X-ray photoelectron spectra 33.55.Be, Zeeman and Stark effects 33.55.Ad, Optical activity, optical rotation; circular dichroism 33.55.-b, Optical activity and dichroism; magnetooptical and electrooptical spectra 33.55.-bxx, Optical activity and dichroism; magnetooptical and electrooptical spectra 33.50.Hv, Radiationless transitions, quenching 33.50.Dq, Fluorescence and phosphorescence spectra 33.50.-j, Fluorescence and phosphorescence; radiationless transitions, quenching (intersystem crossing, internal conversion) (for energy transfer, see also section 34) 33.45.+x, Mössbauer spectra (see also 76.80.+y Mössbauer effect; other x-ray 33.50.-jxx, Fluorescence and phosphorescence; radiationless transitions, quenching (intersystem crossing, internal conversion) (for energy transfer, see also section 34) 33.35.+r, Electron resonance and relaxation (see also 76.30.-v Electron paramagnetic resonance and relaxation in condensed matter) 33.40.+f, Multiple resonances (including double and higher-order resonance processes, such as double nuclear magnetic resonance, electron double resonance, and microwave optical double resonance) (see also 76.70.-r Magnetic double resonances and cross effects in co 33.20.Wr, Vibronic, rovibronic, and rotation-electron-spin interactions 33.25.+k, Nuclear resonance and relaxation (see also 76.60.-k Nuclear magnetic resonance and relaxation in condensed matter and 82.56.-b in physical chemistry and chemical physics) 33.20.Vq, Vibration-rotation analysis 33.20.Rm, X-ray spectra 33.20.Sn, Rotational analysis 33.20.Tp, Vibrational analysis 33.20.Kf, Visible spectra 33.20.Lg, Ultraviolet spectra 33.20.Ni, Vacuum ultraviolet spectra 33.20.Fb, Raman and Rayleigh spectra (including optical scattering) 33.20.Ea, Infrared spectra 33.20.-txx, Molecular spectra 33.20.-t, Molecular spectra 33.20.Bx, Radio-frequency and microwave spectra 33.15.Vb, Correlation times in molecular dynamics 33.15.Ta, Mass spectra 33.15.Pw, Fine and hyperfine structure 33.15.Ry, Ionization potentials, electron affinities, molecular core binding 33.15.Kr, Electric and magnetic moments (and derivatives), polarizability, and magnetic susceptibility 33.15.Mt, Rotation, vibration, and vibration-rotation constants 33.15.Hp, Barrier heights (internal rotation, inversion, rotational isomerism, conformational dynamics) 33.15.Dj, Interatomic distances and angles 33.15.Fm, Bond strengths, dissociation energies 33.15.Bh, General molecular conformation and symmetry; stereochemistry 32.90.+a, Other topics in atomic properties and interactions of atoms with photons (restricted to new topics in section 32) 33., Molecular properties and interactions with photons 33.15.-exx, Properties of molecules 33.15.-e, Properties of molecules 32.80.Wr, Other multiphoton processes 32.80.Ys, Weak-interaction effects in atoms 32.80.Rm, Multiphoton ionization and excitation to highly excited states (e.g., Rydberg states) 32.80.Qk, Coherent control of atomic interactions with photons 32.80.Lg, Mechanical effects of light on atoms, molecules, and ions 32.80.Pj, Optical cooling of atoms; trapping 32.80.Hd, Auger effect and inner-shell excitation or ionization 32.80.Gc, Photodetachment of atomic negative ions 32.80.Dz, Autoionization 32.80.Fb, Photoionization of atoms and ions 32.80.Cy, Atomic scattering, cross sections, and form factors; Compton scattering 32.80.Bx, Level crossing and optical pumping 32.80.-t, Photon interactions with atoms (see also 42.50.-p Quantum optics) 32.70.Jz, Line shapes, widths, and shifts 32.80.-txx, Photon interactions with atoms (see also 42.50.-p Quantum optics) 32.70.Fw, Absolute and relative intensities 32.70.Cs, Oscillator strengths, lifetimes, transition moments 32.70.-nxx, Intensities and shapes of atomic spectral lines 32.70.-n, Intensities and shapes of atomic spectral lines 32.30.Jc, Visible and ultraviolet spectra 32.30.Rj, X-ray spectra 32.50.+d, Fluorescence, phosphorescence (including quenching) 32.60.+i, Zeeman and Stark effects 32.30.Dx, Magnetic resonance spectra 32.30.-r, Atomic spectra 32.30.Bv, Radio-frequency, microwave, and infrared spectra 32.10.Fn, Fine and hyperfine structure 32.10.Hq, Ionization potentials, electron affinities 32.30.-rxx, Atomic spectra 32.10.Dk, Electric and magnetic moments, polarizability 32.10.-fxx, Properties of atoms 32.10.-f, Properties of atoms 32.10.Bi, Atomic masses, mass spectra, abundances, and isotopes (for mass spectroscopy, see 07.75.+h in instruments, and 82.80.Ms, Nj, Rt in physical chemistry and chemical physics) 32., Atomic properties and interactions with photons 31.70.Ks, Molecular solids 31.90.+s, Other topics in the theory of the electronic structure of atoms and molecules (restricted to new topics in section 31) 31.70.Dk, Environmental and solvent effects 31.70.Hq, Time-dependent phenomena: excitation and relaxation processes, and reaction rates (for chemical kinetics aspects, see 82.20.Rp) 31.70.-f, Effects of atomic and molecular interactions on electronic structure (see also section 34 Atomic and molecular collision processes and interactions) 31.50.Df, Potential energy surfaces for excited electronic states 31.50.Gh, Surface crossings, non-adiabatic couplings 31.70.-fxx, Effects of atomic and molecular interactions on electronic structure (see also section 34 Atomic and molecular collision processes and interactions) 31.50.Bc, Potential energy surfaces for ground electronic states 31.50.-x, Potential energy surfaces (for potential energy surfaces for chemical reactions, see 82.20.Kh; for collisions, see 34.20.Mq) 31.50.-xxx, Potential energy surfaces (for potential energy surfaces for chemical reactions, see 82.20.Kh; for collisions, see 34.20.Mq) 31.30.Gs, Hyperfine interactions and isotope effects, Jahn-Teller effect 31.30.Jv, Relativistic and quantum electrodynamic effects in atoms and 31.30.-ixx, Corrections to electronic structure 31.25.Qm, Electron correlation calculations for polyatomic molecules 31.30.-i, Corrections to electronic structure 31.25.Nj, Electron correlation calculations for diatomic molecules 31.25.Eb, Electron correlation calculations for atoms and ions: ground state 31.25.Jf, Electron correlation calculations for atoms and ions: excited states 31.15.Qg, Molecular dynamics and other numerical methods 31.15.Rh, Valence bond calculations 31.25.-vxx, Electron correlation calculations for atoms and molecules 31.25.-v, Electron correlation calculations for atoms and molecules 31.15.Kb, Path-integral methods 31.15.Lc, Quasiparticle methods 31.15.Md, Perturbation theory 31.15.Ne, Self-consistent-field methods 31.15.Pf, Variational techniques 31.15.Ja, Hyperspherical methods 31.15.Gy, Semiclassical methods 31.15.Hz, Group theory 31.15.Dv, Coupled-cluster theory 31.15.Ew, Density-functional theory 31.15.Fx, Finite-difference schemes 31.15.Ct, Semi-empirical and empirical calculations (differential overlap, Hückel, PPP methods, etc.) 31.15.Ar, Ab initio calculations 31.15.Bs, Statistical model calculations (including Thomas-Fermi and Thomas-Fermi-Dirac models) 31.15.-p, Calculations and mathematical techniques in atomic and molecular physics (excluding electron correlation calculations) (see also 02.70.-c computational techniques, in mathematical methods in 31.10.+z, Theory of electronic structure, electronic transitions, and chemical 31.15.-pxx, Calculations and mathematical techniques in atomic and molecular physics (excluding electron correlation calculations) (see also 02.70.-c computational techniques, in mathematical methods in 31., Electronic structure of atoms and molecules: theory 29.90.+r, Other topics in elementary-particle and nuclear physics experimental methods and instrumentation (restricted to new topics in section 29) 30., ATOMIC AND MOLECULAR PHYSICS 29.85.+c, Computer data analysis 29.50.+v, Computer interfaces (see also 07.05.Wr in computers in experimental 29.40.Wk, Solid-state detectors 29.40.Rg, Nuclear emulsions 29.40.Vj, Calorimeters 29.40.Ka, Cherenkov detectors 29.40.Mc, Scintillation detectors 29.40.Gx, Tracking and position-sensitive detectors 29.40.Cs, Gas-filled counters: ionization chambers, proportional, and avalanche counters 29.40.-n, Radiation detectors (for mass spectrometers, see 07.75.+h) 29.30.Lw, Nuclear orientation devices 29.40.-nxx, Radiation detectors (for mass spectrometers, see 07.75.+h) 29.30.Ep, Charged-particle spectroscopy 29.30.Hs, Neutron spectroscopy 29.30.-h, Spectrometers and spectroscopic techniques 29.30.Kv, X- and gamma-ray spectroscopy 29.30.Aj, Charged-particle spectrometers: electric and magnetic 29.30.Dn, Electron spectroscopy 29.27.Hj, Polarized beams 29.30.-hxx, Spectrometers and spectroscopic techniques 29.27.Eg, Beam handling; beam transport 29.27.Fh, Beam characteristics 29.27.Bd, Beam dynamics; collective effects and instabilities 29.27.-a, Beams in particle accelerators (for low energy charged-particle beams, see 41.75.-i) 29.27.Ac, Beam injection and extraction 29.27.-axx, Beams in particle accelerators (for low energy charged-particle beams, see 41.75.-i) 29.25.Pj, Polarized and other targets 29.25.Rm, Sources of radioactive nuclei 29.25.Lg, Ion sources: polarized 29.25.Ni, Ion sources: positive and negative 29.25.Bx, Electron sources 29.25.Dz, Neutron sources 29.25.-t, Particle sources and targets (see also 52.59.-f in physics of plasmas) 29.25.-txx, Particle sources and targets (see also 52.59.-f in physics of plasmas) 29.20.Lq, Synchrotrons 29.20.Fj, Betatrons 29.20.Hm, Cyclotrons 29.20.Dh, Storage rings 29.17.+w, Electrostatic, collective, and linear accelerators 29.20.-cxx, Cyclic accelerators and storage rings 29.20.-c, Cyclic accelerators and storage rings 29., Experimental methods and instrumentation for elementary-particle and nuclear physics 28.90.+i, Other topics in nuclear engineering and nuclear power studies (restricted to new topics in section 28) 28.70.+y, Nuclear explosions (see also 47.40.-x Compressional flows; shock and detonation phenomena; for radiation protection from fallout, see 87.52.-g in biological and medical physics) 28.52.Lf, Components and instrumentation 28.52.Nh, Safety 28.60.+s, Isotope separation and enrichment 28.52.Av, Theory, design, and computerized simulation 28.52.Cx, Fueling, heating and ignition 28.52.Fa, Materials 28.52.-s, Fusion reactors (see also 52.55.-s, 52.57.-z, and 52.58.-c in physics of plasmas) 28.50.Ma, Auxiliary generators 28.52.-sxx, Fusion reactors (see also 52.55.-s, 52.57.-z, and 52.58.-c in physics of plasmas) 28.50.Hw, Power and production reactors 28.50.Ky, Propulsion reactors 28.50.Ft, Fast and breeder reactors 28.50.Dr, Research reactors 28.50.-k, Fission reactor types 28.50.-kxx, Fission reactor types 28.41.Qb, Structural and shielding materials 28.41.Rc, Instrumentation 28.41.Te, Protection systems, safety, radiation monitoring, accidents, and dismantling 28.41.Pa, Moderators 28.41.My, Reactor control systems 28.41.Kw, Radioactive wastes, waste disposal 28.41.Fr, Reactor coolants, reactor cooling, and heat recovery 28.41.-i, Fission reactors 28.41.Ak, Theory, design, and computerized simulation 28.41.Bm, Fuel elements, preparation, reloading, and reprocessing 28.41.-ixx, Fission reactors 28.20.Gd, Neutron transport: diffusion and moderation 28.20.Fc, Neutron absorption 28.20.Cz, Neutron scattering 28.20.-v, Neutron physics (see also 25.40.-h Nucleon-induced reactions and 25.85.Ec Neutron-induced fission) 27.90.+b, 220(less-than-or-equal-to)A 28., Nuclear engineering and nuclear power studies 28.20.-vxx, Neutron physics (see also 25.40.-h Nucleon-induced reactions and 25.85.Ec Neutron-induced fission) 27.80.+w, 190(less-than-or-equal-to)A(less-than-or-equal-to)219 27.70.+q, 150(less-than-or-equal-to)A(less-than-or-equal-to)189 27.60.+j, 90(less-than-or-equal-to)A(less-than-or-equal-to)149 27.50.+e, 59(less-than-or-equal-to)A(less-than-or-equal-to)89 27.30.+t, 20(less-than-or-equal-to)A(less-than-or-equal-to)38 27.40.+z, 39(less-than-or-equal-to)A(less-than-or-equal-to)58 27.10.+h, A(less-than-or-equal-to)5 27.20.+n, 6(less-than-or-equal-to)A(less-than-or-equal-to)19 27., Properties of specific nuclei listed by mass ranges (an additional heading must be chosen with these entries, where the given mass number limits are, to some degree, arbitrary) 26.65.+t, Solar neutrinos 26.60.+c, Nuclear matter aspects of neutron stars 26.40.+r, Cosmic ray nucleosynthesis 26.50.+x, Nuclear physics aspects of novae, supernovae, and other explosive 26.35.+c, Big Bang nucleosynthesis (see also 98.80.Ft Origin, formation, and abundances of the elements in astronomy) 26.30.+k, Nucleosynthesis in novae, supernovae and other explosive 26., Nuclear astrophysics (see also 95.30.-k Fundamental aspects of astrophysics in astronomy) 26.20.+f, Hydrostatic stellar nucleosynthesis (see also 97.10.Cv Stellar structure, interiors, evolution, nucleosynthesis, ages in astronomy) 25.90.+k, Other topics in nuclear reactions: specific reactions (restricted to new topics in section 25) 25.85.Jg, Photofission 25.85.Ge, Charged-particle-induced fission 25.85.Ec, Neutron-induced fission 25.85.-w, Fission reactions 25.85.Ca, Spontaneous fission 25.85.-wxx, Fission reactions 25.80.Pw, Hyperon-induced reactions 25.80.Ls, Pion inclusive scattering and absorption 25.80.Nv, Kaon-induced reactions 25.80.Gn, Pion charge-exchange reactions 25.80.Hp, Pion-induced reactions 25.80.Ek, Pion inelastic scattering 25.80.Dj, Pion elastic scattering 25.80.-e, Meson- and hyperon-induced reactions 25.80.-exx, Meson- and hyperon-induced reactions 25.75.Nq, Quark deconfinement, quark-gluon plasma production, and phase transitions (see also 12.38.Mh Quark-gluon plasma in quantum chromodynamics) 25.75.Ld, Collective flow 25.75.Dw, Particle and resonance production 25.75.Gz, Particle correlations 25.75.-q, Relativistic heavy-ion collisions (collisions induced by light ions studied to calibrate relativistic heavy-ion collisions should be classified under both 25.75.-q and sections 13 or 25 appropriate to 25.75.-qxx, Relativistic heavy-ion collisions (collisions induced by light ions studied to calibrate relativistic heavy-ion collisions should be classified under both 25.75.-q and sections 13 or 25 appropriate to 25.70.Pq, Multifragment emission and correlations 25.70.Mn, Projectile and target fragmentation 25.70.Lm, Strongly damped collisions 25.70.Jj, Fusion and fusion-fission reactions 25.70.Kk, Charge-exchange reactions 25.70.Gh, Compound nucleus 25.70.Hi, Transfer reactions 25.70.De, Coulomb excitation 25.70.Ef, Resonances 25.70.Bc, Elastic and quasielastic scattering 25.70.-z, Low and intermediate energy heavy-ion reactions 25.60.Pj, Fusion reactions 25.70.-zxx, Low and intermediate energy heavy-ion reactions 25.60.Lg, Charge-exchange reactions 25.60.Je, Transfer reactions 25.60.Dz, Interaction and reaction cross sections 25.60.Gc, Breakup and momentum distributions 25.60.Bx, Elastic scattering 25.60.-txx, Reactions induced by unstable nuclei 25.60.-t, Reactions induced by unstable nuclei 25.55.Kr, Charge-exchange reactions 25.55.Hp, Transfer reactions 25.55.Ci, Elastic and inelastic scattering 25.55.-e, 3H-, 3He-, and 4He-induced reactions 25.45.Kk, Charge-exchange reactions 25.55.-exx, 3H-, 3He-, and 4He-induced reactions 25.45.Hi, Transfer reactions 25.45.-z, 2H-induced reactions 25.45.De, Elastic and inelastic scattering 25.45.-zxx, 2H-induced reactions 25.43.+t, Antiproton-induced reactions 25.40.Ve, Other reactions above meson production thresholds (energies>400 MeV) 25.40.Sc, Spallation reactions 25.40.Ny, Resonance reactions 25.40.Qa, (p, pi) reactions 25.40.Hs, Transfer reactions 25.40.Kv, Charge-exchange reactions 25.40.Lw, Radiative capture 25.40.Fq, Inelastic neutron scattering 25.40.Cm, Elastic proton scattering 25.40.Dn, Elastic neutron scattering 25.40.Ep, Inelastic proton scattering 25.40.-h, Nucleon-induced reactions (see also 28.20.-v Neutron physics) 25.40.-hxx, Nucleon-induced reactions (see also 28.20.-v Neutron physics) 25.30.Pt, Neutrino scattering 25.30.Rw, Electroproduction reactions 25.30.Mr, Muon scattering (including the EMC effect) 25.30.Hm, Positron scattering 25.30.Dh, Inelastic electron scattering to specific states 25.30.Fj, Inelastic electron scattering to continuum 25.30.Bf, Elastic electron scattering 25.30.-c, Lepton-induced reactions 25.30.-cxx, Lepton-induced reactions 25.20.Dc, Photon absorption and scattering 25.20.Lj, Photoproduction reactions 25.10.+s, Nuclear reactions involving few-nucleon systems 25.20.-xxx, Photonuclear reactions 25.20.-x, Photonuclear reactions 24.85.+p, Quarks, gluons, and QCD in nuclei and nuclear processes 24.90.+d, Other topics in nuclear reactions: general (restricted to new topics in section 24) 25., Nuclear reactions: specific reactions 24.70.+s, Polarization phenomena in reactions 24.75.+i, General properties of fission 24.80.+y, Nuclear tests of fundamental interactions and symmetries 24.60.Lz, Chaos in nuclear systems 24.60.-k, Statistical theory and fluctuations 24.60.Dr, Statistical compound-nucleus reactions 24.60.Gv, Statistical multistep direct reactions 24.60.Ky, Fluctuation phenomena 24.30.-v, Resonance reactions 24.30.Cz, Giant resonances 24.30.Gd, Other resonances 24.50.+g, Direct reactions 24.60.-kxx, Statistical theory and fluctuations 24.10.Lx, Monte Carlo simulations (including hadron and parton cascades and string breaking models) 24.10.Nz, Hydrodynamic models 24.10.Pa, Thermal and statistical models 24.30.-vxx, Resonance reactions 24.10.Jv, Relativistic models 24.10.-i, Nuclear reaction models and methods 24.10.Cn, Many-body theory 24.10.Eq, Coupled-channel and distorted-wave models 24.10.Ht, Optical and diffraction models 24., Nuclear reactions: general 24.10.-ixx, Nuclear reaction models and methods 23.50.+z, Decay by proton emission 23.60.+e, Alpha decay 23.70.+j, Heavy-particle decay 23.90.+w, Other topics in radioactive decay and in-beam spectroscopy (restricted to new topics in section 23) 23.40.Hc, Relation with nuclear matrix elements and nuclear structure 23.40.-sxx, Beta decay; double beta decay; electron and muon capture 23.40.-s, Beta decay; double beta decay; electron and muon capture 23.40.Bw, Weak-interaction and lepton (including neutrino) aspects (see also 14.60.Pq Neutrino mass and mixing) 23.20.Lv, gamma transitions and level energies 23.20.Nx, Internal conversion and extranuclear effects 23.20.Ra, Internal pair production 23.20.Gq, Multipole mixing ratios 23.20.Js, Multipole matrix elements 23.20.En, Angular distribution and correlation measurements 23., Radioactive decay and in-beam spectroscopy 23.20.-gxx, Electromagnetic transitions 23.20.-g, Electromagnetic transitions 21.80.+a, Hypernuclei 21.90.+f, Other topics in nuclear structure (restricted to new topics in section 21) 21.60.Ka, Monte Carlo models 21.65.+f, Nuclear matter 21.60.Gx, Cluster models 21.60.Jz, Hartree-Fock and random-phase approximations 21.60.Fw, Models based on group theory 21.60.Ev, Collective models 21.60.Cs, Shell model 21.60.-n, Nuclear structure models and methods 21.45.+v, Few-body systems 21.60.-nxx, Nuclear structure models and methods 21.30.Fe, Forces in hadronic systems and effective interactions 21.30.Cb, Nuclear forces in vacuum 21.30.-x, Nuclear forces (see also 13.75.Cs Nucleon-nucleon interactions) 21.10.Sf, Coulomb energies 21.10.Tg, Lifetimes 21.30.-xxx, Nuclear forces (see also 13.75.Cs Nucleon-nucleon interactions) 21.10.Pc, Single-particle levels and strength functions 21.10.Re, Collective levels 21.10.Ky, Electromagnetic moments 21.10.Ma, Level density 21.10.Jx, Spectroscopic factors 21.10.Ft, Charge distribution 21.10.Gv, Mass and neutron distributions 21.10.Hw, Spin, parity, and isobaric spin 21.10.-k, Properties of nuclei; nuclear energy levels (for properties of specific nuclei listed by mass ranges, see section 27) 21.10.Dr, Binding energies and masses 21.10.-kxx, Properties of nuclei; nuclear energy levels (for properties of specific nuclei listed by mass ranges, see section 27) 14.80.Mz, Axions and other Nambu-Goldstone bosons (Majorons, familons, etc.) 20., NUCLEAR PHYSICS 21., Nuclear structure (for nucleon structure, see 14.20.Dh Properties of protons and neutrons; 13.40.-f for electromagnetic processes and properties; 13.60.Hb for deep-inelastic structure functions) 14.80.Hv, Magnetic monopoles 14.80.Ly, Supersymmetric partners of known particles 14.80.Cp, Non-standard-model Higgs bosons 14.80.-jxx, Other particles (including hypothetical) 14.80.-j, Other particles (including hypothetical) 14.80.Bn, Standard-model Higgs bosons 14.70.Dj, Gluons 14.70.Fm, W bosons 14.70.Hp, Z bosons 14.70.Pw, Other gauge bosons 14.70.-e, Gauge bosons 14.70.Bh, Photons 14.65.Fy, Bottom quarks 14.65.Ha, Top quarks 14.70.-exx, Gauge bosons 14.65.-qxx, Quarks 14.65.-q, Quarks 14.65.Bt, Light quarks 14.65.Dw, Charmed quarks 14.60.St, Non-standard-model neutrinos, right-handed neutrinos, etc. 14.60.Pq, Neutrino mass and mixing (see also 12.15.Ff Quark and lepton masses and mixing) 14.60.Lm, Ordinary neutrinos (nue, numu, nutau) 14.60.Fg, Taus 14.60.Hi, Other charged heavy leptons 14.60.Cd, Electrons (including positrons) 14.60.Ef, Muons 14.40.Nd, Bottom mesons 14.60.-zxx, Leptons 14.60.-z, Leptons 14.40.Lb, Charmed mesons 14.40.Ev, Other strange mesons 14.40.Gx, Mesons with S=C=B=0, mass>2.5 GeV (including quarkonia) 14.40.Cs, Other mesons with S=C=0, mass<2.5 GeV 14.40.-nxx, Mesons 14.40.-n, Mesons 14.40.Aq, Pi, K, and eta mesons 14.20.Pt, Dibaryons 14.20.Mr, Bottom baryons 14.20.Lq, Charmed baryons 14.20.Gk, Baryon resonances with S=0 14.20.Jn, Hyperons 14.20.Dh, Protons and neutrons 14.20.-c, Baryons (including antiparticles) 14., Properties of specific particles 14.20.-cxx, Baryons (including antiparticles) 13.90.+i, Other topics in specific reactions and phenomenology of elementary particles (restricted to new topics in section 13) 13.88.+e, Polarization in interactions and scattering 13.87.Fh, Fragmentation into hadrons 13.87.Ce, Production 13.87.-a, Jets in large-Q2 scattering 13.87.-axx, Jets in large-Q2 scattering 13.85.Tp, Cosmic-ray interactions (see also 96.40.-z Cosmic rays in astronomy) 13.85.Rm, Limits on production of particles 13.85.Qk, Inclusive production with identified leptons, photons, or other nonhadronic particles 13.85.Ni, Inclusive production with identified hadrons 13.85.Fb, Inelastic scattering: two-particle final states 13.85.Hd, Inelastic scattering: many-particle final states 13.85.Lg, Total cross sections 13.85.-t, Hadron-induced high- and super-high-energy interactions (energy>10 GeV) (for low energies, see 13.75.-n) 13.85.Dz, Elastic scattering 13.85.-txx, Hadron-induced high- and super-high-energy interactions (energy>10 GeV) (for low energies, see 13.75.-n) 13.75.Lb, Meson-meson interactions 13.75.Gx, Pion-baryon interactions 13.75.Jz, Kaon-baryon interactions 13.75.Ev, Hyperon-nucleon interactions 13.75.Cs, Nucleon-nucleon interactions (including antinucleons, deuterons, etc.) (for N-N interactions in nuclei, see 21.30.-x) 13.75.-nxx, Hadron-induced low- and intermediate-energy reactions and scattering (energy(less-than-or-equal-to)10 GeV) (for higher energies, see 13.85.-t) 13.75.-n, Hadron-induced low- and intermediate-energy reactions and scattering (energy(less-than-or-equal-to)10 GeV) (for higher energies, see 13.85.-t) 13.66.Jn, Precision mesurements in e-e+ interactions 13.66.Lm, Processes in other lepton-lepton interactions 13.66.Hk, Production of non-standard model particles in e-e+ interactions 13.66.Fg, Gauge and Higgs boson production in e-e+ interactions 13.66.De, Lepton production in e-e+ interactions 13.66.Bc, Hadron production in e-e+ interactions 13.66.-a, Lepton-lepton interactions 13.66.-axx, Lepton-lepton interactions 13.60.Rj, Baryon production 13.60.Le, Meson production 13.60.Hb, Total and inclusive cross sections (including deep-inelastic 13.60.Fz, Elastic and Compton scattering 13.60.-r, Photon and charged-lepton interactions with hadrons (for neutrino interactions, see 13.15.+g) 13.40.Ks, Electromagnetic corrections to strong- and weak-interaction 13.60.-rxx, Photon and charged-lepton interactions with hadrons (for neutrino interactions, see 13.15.+g) 13.40.Gp, Electromagnetic form factors 13.40.Hq, Electromagnetic decays 13.40.Dk, Electromagnetic mass differences 13.40.Em, Electric and magnetic moments 13.40.-f, Electromagnetic processes and properties 13.40.-fxx, Electromagnetic processes and properties 13.38.Dg, Decays of Z bosons 13.38.-bxx, Decays of intermediate bosons 13.38.-b, Decays of intermediate bosons 13.38.Be, Decays of W bosons 13.35.Hb, Decays of heavy neutrinos 13.35.Bv, Decays of muons 13.35.Dx, Decays of taus 13.35.-r, Decays of leptons 13.30.Eg, Hadronic decays 13.35.-rxx, Decays of leptons 13.30.Ce, Leptonic, semileptonic, and radiative decays 13.30.-axx, Decays of baryons 13.30.-a, Decays of baryons 13.25.Gv, Decays of J/psi, Upsilon, and other quarkonia 13.25.Hw, Decays of bottom mesons 13.25.Jx, Decays of other mesons 13.25.Cq, Decays of pi mesons 13.25.Es, Decays of K mesons 13.25.Ft, Decays of charmed mesons 13.25.-k, Hadronic decays of mesons 13.20.Jf, Decays of other mesons 13.25.-kxx, Hadronic decays of mesons 13.20.Gd, Decays of J/psi, Upsilon, and other quarkonia 13.20.He, Decays of bottom mesons 13.20.Fc, Decays of charmed mesons 13.20.Eb, Decays of K mesons 13.20.Cz, Decays of pi mesons 13.20.-v, Leptonic, semileptonic, and radiative decays of mesons 13.15.+g, Neutrino interactions 13.20.-vxx, Leptonic, semileptonic, and radiative decays of mesons 13., Specific reactions and phenomenology 12.90.+b, Miscellaneous theoretical ideas and models (restricted to new topics in section 12) 12.60.Rc, Composite models 12.60.Nz, Technicolor models 12.60.Jv, Supersymmetric models (see also 04.65.+e Supergravity) 12.60.Fr, Extensions of electroweak Higgs sector 12.60.Cn, Extensions of electroweak gauge sector 12.60.-i, Models beyond the standard model 12.60.-ixx, Models beyond the standard model 12.40.Yx, Hadron mass models and calculations 12.40.Vv, Vector-meson dominance 12.40.Nn, Regge theory, duality, absorptive/optical models (see also 11.55.Jy Regge formalism) 12.40.Ee, Statistical models 12.40.-y, Other models for strong interactions 12.40.-yxx, Other models for strong interactions 12.39.St, Factorization 12.39.Pn, Potential models 12.39.Mk, Glueball and nonstandard multi-quark/gluon states 12.39.Jh, Nonrelativistic quark model 12.39.Ki, Relativistic quark model 12.39.Hg, Heavy quark effective theory 12.39.Fe, Chiral Lagrangians 12.39.Dc, Skyrmions 12.39.Ba, Bag model 12.39.-x, Phenomenological quark models 12.39.-xxx, Phenomenological quark models 12.38.Qk, Experimental tests 12.38.Mh, Quark-gluon plasma (see also 25.75.Nq Quark deconfinement, quark-gluon plasma production and phase transitions in relativistic heavy ion collisions) 12.38.Lg, Other nonperturbative calculations 12.38.Gc, Lattice QCD calculations (see also 11.15.Ha Lattice gauge theory) 12.38.Cy, Summation of perturbation theory 12.38.Bx, Perturbative calculations 12.38.-txx, Quantum chromodynamics 12.38.-t, Quantum chromodynamics 12.38.Aw, General properties of QCD (dynamics, confinement, etc.) 12.20.Ds, Specific calculations 12.20.Fv, Experimental tests (for optical tests in quantum electrodynamics, see 42.50.Xa) 12.20.-m, Quantum electrodynamics 12.20.-mxx, Quantum electrodynamics 12.15.Mm, Neutral currents 12.15.Lk, Electroweak radiative corrections (see also 13.40.Ks Electromagnetic corrections to strong- and weak-interaction processes) 12.15.Ji, Applications of electroweak models to specific processes 12.15.Hh, Determination of Kobayashi-Maskawa matrix elements 12.15.Ff, Quark and lepton masses and mixing (see also 14.60.Pq Neutrino mass and mixing) 12.15.-y, Electroweak interactions 12.15.-yxx, Electroweak interactions 12.10.Kt, Unification of couplings; mass relations 12.10.Dm, Unified theories and models of strong and electroweak interactions 12.10.-g, Unified field theories and models (see also 04.50.+h-in general relativity and gravitation, 11.25.Mj Compactification and four-dimensional models) 12.10.-gxx, Unified field theories and models (see also 04.50.+h-in general relativity and gravitation, 11.25.Mj Compactification and four-dimensional models) 12., Specific theories and interaction models; particle systematics 11.90.+t, Other topics in general theory of fields and particles (restricted to new topics in section 11) 11.80.Jy, Many-body scattering and Faddeev equation 11.80.La, Multiple scattering 11.80.Gw, Multichannel scattering 11.80.Fv, Approximations (eikonal approximation, variational principles, etc.) 11.80.Et, Partial-wave analysis 11.80.Cr, Kinematical properties (helicity and invariant amplitudes, kinematic singularities, etc.) 11.80.-m, Relativistic scattering theory 11.80.-mxx, Relativistic scattering theory 11.55.Hx, Sum rules 11.55.Jy, Regge formalism (see also 12.40.Nn in strong interactions) 11.55.Ds, Exact S matrices 11.55.Fv, Dispersion relations 11.55.Bq, Analytic properties of S matrix 11.55.-mxx, S-matrix theory; analytic structure of amplitudes 11.55.-m, S-matrix theory; analytic structure of amplitudes 11.40.Ha, Partially conserved axial-vector currents 11.40.Ex, Formal properties of current algebras (see also 12.39.Fe Chiral Lagrangians) 11.40.-q, Currents and their properties 11.40.Dw, General theory of currents 11.40.-qxx, Currents and their properties 11.30.Rd, Chiral symmetries 11.30.Qc, Spontaneous and radiative symmetry breaking 11.30.Ly, Other internal and higher symmetries 11.30.Na, Nonlinear and dynamical symmetries (spectrum-generating symmetries) 11.30.Pb, Supersymmetry (see also 12.60.Jv Supersymmetric models) 11.30.Fs, Global symmetries (e.g., baryon number, lepton number) 11.30.Hv, Flavor symmetries 11.30.Er, Charge conjugation, parity, time reversal, and other discrete 11.30.Cp, Lorentz and Poincare invariance 11.30.-jxx, Symmetry and conservation laws (see also 02.20.-a Group theory) 11.30.-j, Symmetry and conservation laws (see also 02.20.-a Group theory) 11.27.+d, Extended classical solutions; cosmic strings, domain walls, texture (see also 98.80.Cq in cosmology; 11.25.-w Strings and branes) 11.25.Yb, M theory 11.25.Tq, Gauge/string duality 11.25.Uv, D branes 11.25.Wx, String and brane phenomenology 11.25.Sq, Nonperturbative techniques; string field theory 11.25.Pm, Noncritical string theory 11.25.Mj, Compactification and four-dimensional models 11.25.Db, Properties of perturbation theory 11.25.Hf, Conformal field theory, algebraic structures 11.25.-w, Strings and branes (for cosmic strings, see 98.80.Cq in cosmology;see also 11.27.+d Extended classical solutions; cosmic strings, domain walls, texture) 11.25.-wxx, Strings and branes (for cosmic strings, see 98.80.Cq in cosmology;see also 11.27.+d Extended classical solutions; cosmic strings, domain walls, texture) 11.15.Tk, Other nonperturbative techniques 11.15.Pg, Expansions for large numbers of components (e.g., 1/Nc expansions) 11.15.Kc, Classical and semiclassical techniques 11.15.Me, Strong-coupling expansions 11.15.Ha, Lattice gauge theory (see also 12.38.Gc Lattice QCD calculations) 11.15.Ex, Spontaneous breaking of gauge symmetries 11.15.Bt, General properties of perturbation theory 11.15.-q, Gauge field theories 11.10.Wx, Finite-temperature field theory 11.15.-qxx, Gauge field theories 11.10.St, Bound and unstable states; Bethe-Salpeter equations 11.10.Nx, Noncommutative field theory 11.10.Lm, Nonlinear or nonlocal theories and models (see also 11.27.+d Extended classical solutions; cosmic strings, domain walls, texture) 11.10.Kk, Field theories in dimensions other than four (see also 04.50.+h Gravity in more than four dimensions; 04.60.Kz Lower dimensional models in quantum gravity) 11.10.Jj, Asymptotic problems and properties 11.10.Hi, Renormalization group evolution of parameters 11.10.Ef, Lagrangian and Hamiltonian approach 11.10.Gh, Renormalization 11.10.Cd, Axiomatic approach 11.10.-z, Field theory (for gauge field theories, see 11.15.-q) 11.10.-zxx, Field theory (for gauge field theories, see 11.15.-q) 11., General theory of fields and particles (see also 03.65.-w Quantum mechanics and 03.70.+k Theory of quantized fields) 10., THE PHYSICS OF ELEMENTARY PARTICLES AND FIELDS (for cosmic rays, see 96.40.-z in astronomy; for experimental methods and instrumentation for elementary-particle physics, see section 29) 07.90.+c, Other topics in instruments, apparatus, and components common to several branches of physics and astronomy (restricted to new topics in section 07) 07.89.+b, Environmental effects on instruments (e.g., radiation and pollution effects) (for environmental effects on optical elements, devices, and systems, see 42.88.+h) 07.88.+y, Instruments for environmental pollution measurements 07.87.+v, Spaceborne and space research instruments, apparatus, and components (satellites, space vehicles, etc.) (for aeronomy and magnetospheric instrumentation, see 94.80.+g; see also 95.55.Fw and 95.40.+s in astronomy) 07.85.Tt, X-ray microscopes 07.85.Qe, Synchrotron radiation instrumentation 07.85.Nc, X-ray and gamma-ray spectrometers 07.85.Jy, Diffractometers 07.85.Fv, X- and gamma-ray sources, mirrors, gratings, and detectors 07.85.-m, X- and gamma-ray instruments (for x- and gamma-ray telescopes, see 95.55.Ka in astronomy) 07.85.-mxx, X- and gamma-ray instruments (for x- and gamma-ray telescopes, see 95.55.Ka in astronomy) 07.81.+a, Electron and ion spectrometers (see also 29.30.-h in nuclear 07.79.Sp, Friction force microscopes 07.79.Lh, Atomic force microscopes 07.79.Pk, Magnetic force microscopes 07.79.Fc, Near-field scanning optical microscopes 07.79.Cz, Scanning tunneling microscopes 07.79.-vxx, Scanning probe microscopes and components (see also 68.37.-d in surfaces and interfaces) 07.79.-v, Scanning probe microscopes and components (see also 68.37.-d in surfaces and interfaces) 07.78.+s, Electron, positron, and ion microscopes; electron diffractometers 07.77.Gx, Atomic and molecular beam sources and detectors (see also 39.10.+j in atomic and molecular physics) 07.77.Ka, Charged-particle beam sources and detectors (see also 29.40.-n in nuclear physics) 07.77.-n, Atomic, molecular, and charged-particle sources and detectors 07.77.-nxx, Atomic, molecular, and charged-particle sources and detectors 07.75.+h, Mass spectrometers (see also 82.80.Ms, 82.80.Nj, and 82.80.Rt in physical chemistry and chemical physics) 07.68.+m, Photography, photographic instruments; xerography 07.64.+z, Acoustic instruments and equipment (see also 43.58.+z-in acoustics) 07.60.Rd, Visible and ultraviolet spectrometers 07.60.Vg, Fiber-optic instruments (see also 42.81.-i Fiber optics-in optics) 07.60.Pb, Conventional optical microscopes (for near-field scanning optical microscopes, see 07.79.Fc; for x-ray microscopes, see 07.85.Tt) 07.60.Hv, Refractometers and reflectometers 07.60.Ly, Interferometers 07.60.Fs, Polarimeters and ellipsometers 07.60.Dq, Photometers, radiometers, and colorimeters 07.60.-j, Optical instruments and equipment 07.60.-jxx, Optical instruments and equipment 07.57.Ty, Infrared spectrometers, auxiliary equipment, and techniques 07.57.Pt, Submillimeter wave, microwave and radiowave spectrometers; magnetic resonance spectrometers, auxiliary equipment, and techniques 07.57.Kp, Bolometers; infrared, submillimeter wave, microwave, and radiowave receivers and detectors (see also 85.60.Gz Photodetectors in electronic and magnetic devices, and 95.55.Rg Photoconductors and bolometers in astronomy) 07.57.Hm, Infrared, submillimeter wave, microwave, and radiowave sources 07.57.-c, Infrared, submillimeter wave, microwave and radiowave instruments and equipment (for infrared and radio telescopes, see 95.55.Cs, 95.55.Fw, and 95.55.Jz in astronomy) 07.57.-cxx, Infrared, submillimeter wave, microwave and radiowave instruments and equipment (for infrared and radio telescopes, see 95.55.Cs, 95.55.Fw, and 95.55.Jz in astronomy) 07.55.Nk, Magnetic shielding in instruments 07.55.Jg, Magnetometers for susceptibility, magnetic moment, and magnetization measurements 07.55.Ge, Magnetometers for magnetic field measurements 07.55.Db, Generation of magnetic fields; magnets (for superconducting magnets, see 84.71.Ba) 07.55.-w, Magnetic instruments and components 07.50.Qx, Signal processing electronics (see also 84.40.Ua in radiowave and microwave technology) 07.55.-wxx, Magnetic instruments and components 07.50.Ls, Electrometers 07.50.Hp, Electrical noise and shielding equipment 07.50.Ek, Circuits and circuit components (see also 84.30.-r Electronic circuits and 84.32.-y Passive circuit components) 07.50.-e, Electrical and electronic instruments and components 07.50.-exx, Electrical and electronic instruments and components 07.35.+k, High-pressure apparatus; shock tubes; diamond anvil cells 07.30.Kf, Vacuum chambers, auxiliary apparatus, and materials 07.30.Hd, Vacuum testing methods; leak detectors 07.30.Dz, Vacuum gauges 07.30.Cy, Vacuum pumps 07.30.Bx, Degasification, residual gas 07.30.-t, Vacuum apparatus 07.30.-txx, Vacuum apparatus 07.20.Pe, Heat engines; heat pumps; heat pipes 07.20.Mc, Cryogenics; refrigerators, low-temperature equipment 07.20.Ka, High-temperature instrumentation; pyrometers 07.20.Hy, Furnaces; heaters 07.20.Fw, Calorimeters (for calorimeters as radiation detectors, see 29.40.Vj) 07.20.Dt, Thermometers 07.20.-n, Thermal instruments and apparatus 07.20.-nxx, Thermal instruments and apparatus 07.10.Pz, Instruments for strain, force, and torque 07.10.Lw, Balance systems, tensile machines, etc. 07.10.Fq, Vibration isolation 07.10.Cm, Micromechanical devices and systems (for micro- and nano-electromechanical systems (MEMS/NEMS), see 85.85.+j in electronic and magnetic devices) 07.10.-h, Mechanical instruments and equipment 07.10.-hxx, Mechanical instruments and equipment 07.07.Vx, Hygrometers 07.07.Tw, Servo and control equipment; robots 07.07.Mp, Transducers 07.07.Hj, Display and recording equipment, oscilloscopes, TV cameras, etc. 07.07.Df, Sensors (chemical, optical, electrical, movement, gas, etc.); remote 07.07.-axx, General equipment 07.07.-a, General equipment 07.05.Wr, Computer interfaces 07.05.Tp, Computer modeling and simulation 07.05.Rm, Data presentation and visualization: algorithms and implementation 07.05.Pj, Image processing (see also 42.30.Va in optics; 87.57.-s Medical imaging: general in biological and medical physics) 07.05.Mh, Neural networks, fuzzy logic, artificial intelligence 07.05.Kf, Data analysis: algorithms and implementation; data management 07.05.Hd, Data acquisition: hardware and software 07.05.Fb, Design of experiments 07.05.Dz, Control systems 07.05.Bx, Computer systems: hardware, operating systems, computer languages, and utilities 07.05.-t, Computers in experimental physics 07.05.-txx, Computers in experimental physics 07., Instruments, apparatus, and components common to several branches of physics and astronomy (see also each subdiscipline for specialized instrumentation and techniques) 06.90.+v, Other topics in metrology, measurements, and laboratory procedures (restricted to new topics in section 06) 06.60.Wa, Laboratory safety procedures 06.60.Vz, Workshop procedures (welding, machining, lubrication, bearings, 06.60.Sx, Positioning and alignment; manipulating, remote handling 06.60.Mr, Testing and inspecting procedures 06.60.Jn, High-speed techniques (microsecond to femtosecond) 06.60.Ei, Sample preparation (including design of sample holders) 06.60.-c, Laboratory procedures 06.60.-cxx, Laboratory procedures 06.30.Gv, Velocity, acceleration, and rotation 06.30.Ft, Time and frequency 06.30.Dr, Mass and density 06.30.Bp, Spatial dimensions (e.g., position, lengths, volume, angles, and displacements) 06.30.-k, Measurements common to several branches of physics and astronomy 06.30.-kxx, Measurements common to several branches of physics and astronomy 06.20.Jr, Determination of fundamental constants 06.20.Fn, Units and standards 06.20.Dk, Measurement and error theory 06.20.-fxx, Metrology 06.20.-f, Metrology 06., Metrology, measurements, and laboratory procedures (for laser applications in metrology, see 42.62.Eh) 05.90.+m, Other topics in statistical physics, thermodynamics, and nonlinear dynamical systems (restricted to new topics in section 05) 05.70.Np, Interface and surface thermodynamics (see also 68.35.Md Surface thermodynamics, surface energies in surfaces and interfaces) 05.70.Ln, Nonequilibrium and irreversible thermodynamics (see also 82.40.Bj Oscillations, chaos, and bifurcations in physical chemistry and chemical physics) 05.70.Jk, Critical point phenomena 05.70.Fh, Phase transitions: general studies 05.70.Ce, Thermodynamic functions and equations of state (see also 51.30.+i Thermodynamic properties, equations of state in physics of gases) 05.70.-a, Thermodynamics (see also section 64 Equations of state, phase equilibria, and phase transitions, and section 65 Thermal properties of condensed matter; for chemical thermodynamics, see 82.60.-s; for thermodynamics of plasmas, see 52.25.Kn) 05.70.-axx, Thermodynamics (see also section 64 Equations of state, phase equilibria, and phase transitions, and section 65 Thermal properties of condensed matter; for chemical thermodynamics, see 82.60.-s; for thermodynamics of plasmas, see 52.25.Kn) 05.60.Cd, Classical transport 05.60.Gg, Quantum transport 05.65.+b, Self-organized systems (see also 45.70.-n in classical mechanics of 05.60.-k, Transport processes 05.60.-kxx, Transport processes 05.50.+q, Lattice theory and statistics (Ising, Potts, etc.) (see also 64.60.Cn Order-disorder transformations and statistical mechanics of model systems and 75.10.Hk Classical spin models) 05.45.Yv, Solitons (see 52.35.Sb for solitons in plasma; see 42.50.Md, 42.65.Tg, 42.81.Dp for solitons in optics; see also 03.75.Lm Tunneling, Josephson effect, Bose-Einstein condensates in periodic potentials, solitons, vortices, and topological excitations)) 05.45.Xt, Synchronization; coupled oscillators 05.45.Vx, Communication using chaos 05.45.Tp, Time series analysis 05.45.Ra, Coupled map lattices 05.45.Mt, Quantum chaos; semiclassical methods 05.45.Pq, Numerical simulations of chaotic systems 05.45.Jn, High-dimensional chaos 05.45.Gg, Control of chaos, applications of chaos 05.45.Df, Fractals (see also 47.53.+n Fractals in fluid dynamics) 05.45.Ac, Low-dimensional chaos 05.45.-a, Nonlinear dynamics and nonlinear dynamical systems (see also section 45 Classical mechanics of discrete systems) 05.45.-axx, Nonlinear dynamics and nonlinear dynamical systems (see also section 45 Classical mechanics of discrete systems) 05.40.Jc, Brownian motion 05.40.Fb, Random walks and Levy flights 05.40.Ca, Noise 05.40.-a, Fluctuation phenomena, random processes, noise, and Brownian motion (for fluctuations in superconductivity, see 74.40.+k; for statistical theory and fluctuations in nuclear reactions, see 24.60.-k; for fluctuations in plasma, see 52.25.Gj) 05.40.-axx, Fluctuation phenomena, random processes, noise, and Brownian motion (for fluctuations in superconductivity, see 74.40.+k; for statistical theory and fluctuations in nuclear reactions, see 24.60.-k; for fluctuations in plasma, see 52.25.Gj) 05.30.Pr, Fractional statistics systems (anyons, etc.) 05.30.Jp, Boson systems (for static and dynamic properties of Bose-Einstein condensates, see 03.75.Hh and 03.75.Kk) 05.30.Fk, Fermion systems and electron gas (see also 71.10.-w Theories and models of many-electron systems) 05.30.Ch, Quantum ensemble theory 05.30.-dxx, Quantum statistical mechanics 05.30.-d, Quantum statistical mechanics 05.20.Jj, Statistical mechanics of classical fluids (see also 47.10.+g General theory in fluid dynamics) 05.20.Gg, Classical ensemble theory 05.20.Dd, Kinetic theory (see also 51.10.+y Kinetic and transport theory of gases) 05.20.-y, Classical statistical mechanics 05.20.-yxx, Classical statistical mechanics 05.10.Ln, Monte Carlo methods (see also 02.70.Tt, Uu in mathematical methods in physics; for Monte Carlo methods in plasma simulation, see 52.65.Pp) 05.10.Gg, Stochastic analysis methods (Fokker-Planck, Langevin, etc.) 05.10.Cc, Renormalization group methods 05.10.-a, Computational methods in statistical physics and nonlinear dynamics (see also 02.70.-c in mathematical methods in physics) 05.10.-axx, Computational methods in statistical physics and nonlinear dynamics (see also 02.70.-c in mathematical methods in physics) 05., Statistical physics, thermodynamics, and nonlinear dynamical systems (see also 02.50.-r Probability theory, stochastic processes, and statistics) 04.90.+e, Other topics in general relativity and gravitation (restricted to new topics in section 04) 04.80.Nn, Gravitational wave detectors and experiments (see also 95.55.Ym-in astronomy) 04.80.Cc, Experimental tests of gravitational theories 04.80.-yxx, Experimental studies of gravity 04.80.-y, Experimental studies of gravity 04.70.Dy, Quantum aspects of black holes, evaporation, thermodynamics 04.70.Bw, Classical black holes 04.70.-s, Physics of black holes (see also 97.60.Lf-in astronomy) 04.70.-sxx, Physics of black holes (see also 97.60.Lf-in astronomy) 04.65.+e, Supergravity (see also 12.60.Jv Supersymmetric models) 04.62.+v, Quantum field theory in curved spacetime 04.60.Pp, Loop quantum gravity, quantum geometry, spin foams 04.60.Nc, Lattice and discrete methods 04.60.Kz, Lower dimensional models; minisuperspace models 04.60.Gw, Covariant and sum-over-histories quantization 04.60.Ds, Canonical quantization 04.60.-m, Quantum gravity 04.60.-mxx, Quantum gravity 04.50.+h, Gravity in more than four dimensions, Kaluza-Klein theory, unified field theories; alternative theories of gravity (see also 11.25.Mj Compactification and four-dimensional models) 04.40.Nr, Einstein-Maxwell spacetimes, spacetimes with fluids, radiation or classical fields 04.40.Dg, Relativistic stars: structure, stability, and oscillations (see also 97.60.-s Late stages of stellar evolution) 04.40.-b, Self-gravitating systems; continuous media and classical fields in curved spacetime 04.40.-bxx, Self-gravitating systems; continuous media and classical fields in curved spacetime 04.30.Nk, Wave propagation and interactions 04.30.Db, Wave generation and sources 04.30.-w, Gravitational waves: theory 04.30.-wxx, Gravitational waves: theory 04.25.Nx, Post-Newtonian approximation; perturbation theory; related approximations 04.25.Dm, Numerical relativity 04.25.-g, Approximation methods; equations of motion 04.25.-gxx, Approximation methods; equations of motion 04.20.Jb, Exact solutions 04.20.Ha, Asymptotic structure 04.20.Gz, Spacetime topology, causal structure, spinor structure 04.20.Fy, Canonical formalism, Lagrangians, and variational principles 04.20.Ex, Initial value problem, existence and uniqueness of solutions 04.20.Dw, Singularities and cosmic censorship 04.20.Cv, Fundamental problems and general formalism 04.20.-q, Classical general relativity (see also 02.40.-k Geometry, differential geometry, and topology) 04.20.-qxx, Classical general relativity (see also 02.40.-k Geometry, differential geometry, and topology) 03.75.Ss, Degenerate Fermi gases 04., General relativity and gravitation (see also 95.30.Sf in astronomy) 03.75.Pp, Atom lasers 03.75.Nt, Other Bose-Einstein condensation phenomena 03.75.Mn, Multicomponent condensates; spinor condensates 03.75.Lm, Tunneling, Josephson effect, Bose-Einstein condensates in periodic potentials, solitons, vortices and topological excitations 03.75.Kk, Dynamic properties of condensates; collective and hydrodynamic excitations, superfluid flow 03.75.Gg, Entanglement and decoherence in Bose-Einstein condensates 03.75.Hh, Static properties of condensates; thermodynamical, statistical and structural properties. 03.75.Be, Atom and neutron optics 03.75.Dg, Atom and neutron interferometry 03.75.-b, Matter waves (for atom interferometry techniques, see 39.20.+q-in atomic and molecular physics) 03.75.-bxx, Matter waves (for atom interferometry techniques, see 39.20.+q-in atomic and molecular physics) 03.70.+k, Theory of quantized fields (see also 11.10.-z Field theory) 03.67.Pp, Quantum error correction and other methods for protection against decoherence (see also 03.65.Yz Decoherence; open systems; quantum statistical methods; for decoherence in Bose-Einstein condensates, see 03.75.Gg) 03.67.Mn, Entanglement production, characterization and manipulation (see also 03.65.Ud Entanglement and quantum nonlocality; for entanglement in Bose-Einstein condensates, see 03.75.Gg) 03.67.Lx, Quantum computation 03.67.Hk, Quantum communication 03.67.Dd, Quantum cryptography 03.67.-a, Quantum information 03.67.-axx, Quantum information 03.65.Yz, Decoherence; open systems; quantum statistical methods (see also 03.67.Pp in quantum information; for decoherence in Bose-Einstein condensates, see 03.75.Gg) 03.65.Xp, Tunneling, traversal time, quantum Zeno dynamics 03.65.Wj, State reconstruction, quantum tomography 03.65.Vf, Phases: geometric; dynamic or topological 03.65.Ud, Entanglement and quantum nonlocality (e.g. EPR paradox, Bell's inequalities, GHZ states, etc.) (for entanglement production in quantum information, see 03.67.Mn; for entanglement in Bose-Einstein condensates, see 03.75.Gg) 03.65.Ta, Foundations of quantum mechanics; measurement theory (for optical tests of quantum theory, see 42.50.Xa) 03.65.Sq, Semiclassical theories and applications 03.65.Pm, Relativistic wave equations 03.65.Nk, Scattering theory 03.65.Ge, Solutions of wave equations: bound states 03.65.Fd, Algebraic methods (see also 02.20.-a Group theory) 03.65.Ca, Formalism 03.65.Db, Functional analytical methods 03.65.-w, Quantum mechanics (see also 03.67.-a Quantum information; 05.30.-d Quantum statistical mechanics) 03.65.-wxx, Quantum mechanics (see also 03.67.-a Quantum information; 05.30.-d Quantum statistical mechanics) 03.50.Kk, Other special classical field theories 03.50.De, Classical electromagnetism, Maxwell equations (for applied classical electromagnetism, see 41.20.-q) 03.50.-z, Classical field theories 03.50.-zxx, Classical field theories 03.30.+p, Special relativity 03., Quantum mechanics, field theories, and special relativity (see also section 11 General theory of fields and particles) 02.90.+p, Other topics in mathematical methods in physics (restricted to new topics in section 02) 02.70.Wz, Symbolic computation (computer algebra) 02.70.Tt, Justifications or modifications of Monte Carlo methods 02.70.Uu, Applications of Monte Carlo methods (see also 02.50.Ng in probability theory, stochastic processes, and statistics, and 05.10.Ln in statistical physics) 02.70.Rr, General statistical methods 02.70.Ss, Quantum Monte Carlo methods 02.70.Pt, Boundary-integral methods 02.70.Ns, Molecular dynamics and particle methods 02.70.Jn, Collocation methods 02.70.Hm, Spectral methods 02.70.Dh, Finite-element and Galerkin methods 02.70.Bf, Finite-difference methods 02.70.-c, Computational techniques (for quantum computation, see 03.67.Lx) 02.70.-cxx, Computational techniques (for quantum computation, see 03.67.Lx) 02.60.Pn, Numerical optimization 02.60.Nm, Integral and integrodifferential equations 02.60.Lj, Ordinary and partial differential equations; boundary value problems 02.60.Jh, Numerical differentiation and integration 02.60.Gf, Algorithms for functional approximation 02.60.Ed, Interpolation; curve fitting 02.60.Dc, Numerical linear algebra 02.60.-x, Numerical approximation and analysis 02.60.Cb, Numerical simulation; solution of equations 02.60.-xxx, Numerical approximation and analysis 02.50.Tt, Inference methods 02.50.Sk, Multivariate analysis 02.50.Ng, Distribution theory and Monte Carlo studies 02.50.Le, Decision theory and game theory 02.50.Ga, Markov processes 02.50.Fz, Stochastic analysis 02.50.Ey, Stochastic processes 02.50.Cw, Probability theory 02.50.-r, Probability theory, stochastic processes, and statistics (see also section 05 Statistical physics, thermodynamics, and nonlinear dynamical systems) 02.50.-rxx, Probability theory, stochastic processes, and statistics (see also section 05 Statistical physics, thermodynamics, and nonlinear dynamical systems) 02.40.Yy, Geometric mechanics (see also 45.20.Jj in formalisms in classical mechanics) 02.40.Tt, Complex manifolds 02.40.Vh, Global analysis and analysis on manifolds 02.40.Xx, Singularity theory (see also 05.45.-a in statistical physics, thermodynamics, and nonlinear dynamical systems) 02.40.Pc, General topology 02.40.Re, Algebraic topology 02.40.Sf, Manifolds and cell complexes 02.40.Ma, Global differential geometry 02.40.Ky, Riemannian geometries 02.40.Hw, Classical differential geometry 02.40.Gh, Noncommutative geometry 02.40.Dr, Euclidean and projective geometries 02.40.Ft, Convex sets and geometric inequalities 02.40.-kxx, Geometry, differential geometry, and topology (see also section 04 Relativity and gravitation) 02.40.-k, Geometry, differential geometry, and topology (see also section 04 Relativity and gravitation) 02.30.Yy, Control theory 02.30.Zz, Inverse problems 02.30.Xx, Calculus of variations 02.30.Vv, Operational calculus 02.30.Uu, Integral transforms 02.30.Tb, Operator theory 02.30.Sa, Functional analysis 02.30.Rz, Integral equations 02.30.Px, Abstract harmonic analysis 02.30.Oz, Bifurcation theory (see also 47.20.Ky in fluid dynamics) 02.30.Nw, Fourier analysis 02.30.Mv, Approximations and expansions 02.30.Lt, Sequences, series, and summability 02.30.Ik, Integrable systems 02.30.Jr, Partial differential equations 02.30.Ks, Delay and functional equations 02.30.Fn, Several complex variables and analytic spaces 02.30.Gp, Special functions 02.30.Hq, Ordinary differential equations 02.30.Em, Potential theory 02.30.Cj, Measure and integration 02.30.-f, Function theory, analysis 02.30.-fxx, Function theory, analysis 02.20.Uw, Quantum groups 02.20.Tw, Infinite-dimensional Lie groups 02.20.Sv, Lie algebras of Lie groups 02.20.Hj, Classical groups 02.20.Qs, General properties, structure, and representation of Lie groups 02.20.Rt, Discrete subgroups of Lie groups 02.20.-a, Group theory (for algebraic methods in quantum mechanics, see 03.65.Fd; for symmetries in elementary particle physics, see 11.30.-j) 02.20.Bb, General structures of groups 02.10.Yn, Matrix theory 02.20.-axx, Group theory (for algebraic methods in quantum mechanics, see 03.65.Fd; for symmetries in elementary particle physics, see 11.30.-j) 02.10.Xm, Multilinear algebra 02.10.Ud, Linear algebra 02.10.Kn, Knot theory 02.10.Ox, Combinatorics; graph theory 02.10.Hh, Rings and algebras 02.10.De, Algebraic structures and number theory 02.10.Ab, Logic and set theory 02.10.-v, Logic, set theory, and algebra 02.10.-vxx, Logic, set theory, and algebra 01.90.+g, Other topics of general interest (restricted to new topics in section 01) 02., Mathematical methods in physics 01.75.+m, Science and society (for science and government, see 01.78.+p) 01.78.+p, Science and government (funding, politics, etc.) 01.80.+b, Physics of sports 01.70.+w, Philosophy of science 01.65.+g, History of science 01.50.Wg, Physics of toys 01.52.+r, National and international laboratory facilities 01.55.+b, General physics 01.60.+q, Biographies, tributes, personal notes, and obituaries 01.50.Qb, Laboratory course design, organization, and evaluation 01.50.My, Demonstration experiments and apparatus 01.50.Pa, Laboratory experiments and apparatus (see also 01.50.Lc) 01.50.Lc, Laboratory computer use (see also 01.50.Pa) 01.50.Ht, Instructional computer use 01.50.Kw, Techniques of testing 01.40.Jp, Teacher training 01.50.-ixx, Educational aids 01.50.-i, Educational aids 01.50.Fr, Audio and visual aids, films 01.40.Fk, Physics education research (cognition, problem solving, etc.) 01.40.Gm, Curricula; teaching methods, strategies, theory of testing and evaluation 01.40.-dxx, Education 01.40.-d, Education 01.40.Di, Course design and evaluation 01.40.Ej, Science in elementary and secondary school 01.30.Vv, Book reviews 01.30.Xx, Publications in electronic media (for the topic of electronic publishing, see 01.20.+x) 01.30.Rr, Surveys and tutorial papers; resource letters 01.30.Tt, Bibliographies 01.30.Pp, Textbooks for undergraduates 01.30.Mm, Textbooks for graduates and researchers 01.30.Kj, Handbooks, dictionaries, tables, and data compilations 01.30.Ee, Monographs and collections 01.30.Cc, Conference proceedings 01.30.-y, Physics literature and publications 01.30.Bb, Publications of lectures (advanced institutes, summer schools, etc.) 01.20.+x, Communication forms and techniques (written, oral, electronic, etc.) 01.30.-yxx, Physics literature and publications 01.10.Hx, Physics organizational activities 01.10.Cr, Announcements, news, and awards 01.10.Fv, Conferences, lectures, and institutes 01.10.-mxx, Announcements, news, and organizational activities 01.10.-m, Announcements, news, and organizational activities 00., GENERAL 01., Communication, education, history, and philosophy 97-XX, Stars 98-XX, Stellar systems; interstellar medium; galactic and extragalactic objects and systems; the Universe 96-XX, Solar System (for the Earth, see sections 91-94) 95-XX, Fundamental astronomy and astrophysics; instrumentation, techniques, and astronomical observations 94-XX, Aeronomy and magnetospheric physics 92-XX, Hydrospheric and atmospheric geophysics 93-XX, Geophysical observations, instrumentation, and techniques 91-XX, Solid Earth physics 90-XX, GEOPHYSICS, ASTRONOMY, AND ASTROPHYSICS 87-XX, Biological and medical physics 89-XX, Other areas of applied and interdisciplinary physics 85-XX, Electronic and magnetic devices; microelectronics 82-XX, Physical chemistry and chemical physics 83-XX, Rheology (see also section 47 Fluid dynamics) 84-XX, Electronics; radiowave and microwave technology; direct energy conversion and storage 81-XX, Materials science 80-XX, INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND 79-XX, Electron and ion emission by liquids and solids; impact phenomena 78-XX, Optical properties, condensed-matter spectroscopy and other interactions of radiation and particles with condensed matter 76-XX, Magnetic resonances and relaxations in condensed matter, Mössbauer 77-XX, Dielectrics, piezoelectrics, and ferroelectrics and their properties (for conductivity phenomena, see 72.20.-i and 72.80.-r; for dielectric properties related to treatment conditions, see 81.40.Tv) 75-XX, Magnetic properties and materials (for magnetic properties related to treatment conditions, see 81.40.Rs; for magnetic properties of superconductors, see 74.25.Ha; for magnetic properties of rocks and minerals, see 91.60.Pn) 74-XX, Superconductivity (for superconducting devices, see 85.25.-j) 73-XX, Electronic structure and electrical properties of surfaces, interfaces, thin films, and low-dimensional structures (for electronic structure and electrical properties of superconducting films and low-dimensional structures, see 74.78.-w; for computational 72-XX, Electronic transport in condensed matter (for electronic transport in surfaces, interfaces, and thin films, see section 73; for electrical properties related to treatment conditions, see 81.40.Rs; for transport properties of superconductors, see 74.25.Fy) 71-XX, Electronic structure of bulk materials (see section 73 for electronic structure of surfaces, interfaces, low-dimensional structures, and nanomaterials; for electronic structure of superconductors, see 74.25.Jb) 70-XX, CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND 68-XX, Surfaces and interfaces; thin films and low-dimensional systems (structure and nonelectronic properties) (for surface and interface chemistry, see 82.65.+r, for surface magnetism, see 75.70.Rf) 67-XX, Quantum fluids and solids; liquid and solid helium (see also 05.30.-d Quantum statistical mechanics) 66-XX, Transport properties of condensed matter (nonelectronic) 65-XX, Thermal properties of condensed matter (see also 05.70.-a Thermodynamics and section 44 Heat transfer; for thermodynamic properties of quantum fluids and solids, see section 67; for thermal properties of thin films, see 68.60.Dv; for nonelectronic thermal 64-XX, Equations of state, phase equilibria, and phase transitions (see also 82.60.-s Chemical thermodynamics) 63-XX, Lattice dynamics (see also 78.30.-j Infrared and Raman spectra; for surface and interface vibrations, see 68.35.Ja; for adsorbate vibrations, see 68.43.Pq) 62-XX, Mechanical and acoustical properties of condensed matter (for mechanical properties of interfaces and thin films, see 68.35.Gy, and 68.35.Iv; and 68.60Bs; for mechanical and acoustical properties related to treatment conditions, see 81.40.Jj, Lm, Np in ma 61-XX, Structure of solids and liquids; crystallography (for surface, interface, and thin film structure, see section 68) 60-XX, CONDENSED MATTER: STRUCTURAL, MECHANICAL AND THERMAL PROPERTIES 52-XX, Physics of plasmas and electric discharges (for astrophysical plasmas, see 95.30.Qd; for physics of the ionosphere and magnetosphere, see 94.20.-y and 94.30.-d respectively) 51-XX, Physics of gases 50-XX, PHYSICS OF GASES, PLASMAS, AND ELECTRIC DISCHARGES 47-XX, Fluid dynamics (for fluid dynamics of quantum fluids, see section 67; see also section 83 Rheology) 46-XX, Continuum mechanics of solids (see also 83.10.Ff in rheology) 45-XX, Classical mechanics of discrete systems 44-XX, Heat transfer 43-XX, Acoustics 42-XX, Optics (for optical properties of gases, see 51.70.+f; for optical properties of bulk materials and thin films, see 78.20.-e; for x-ray optics, see 41.50.+h) 41-XX, Electromagnetism; electron and ion optics 40-XX, ELECTROMAGNETISM, OPTICS, ACOUSTICS, HEAT TRANSFER, CLASSICAL MECHANICS, AND FLUID MECHANICS 39-XX, Instrumentation and techniques for atomic and molecular physics 36-XX, Exotic atoms and molecules; macromolecules; clusters 32-XX, Atomic properties and interactions with photons 33-XX, Molecular properties and interactions with photons 34-XX, Atomic and molecular collision processes and interactions (for atomic, molecular, and ionic collisions in plasma, see 52.20.Hv) 31-XX, Electronic structure of atoms and molecules: theory 30-XX, ATOMIC AND MOLECULAR PHYSICS 29-XX, Experimental methods and instrumentation for elementary-particle and nuclear physics 28-XX, Nuclear engineering and nuclear power studies 27-XX, Properties of specific nuclei listed by mass ranges (an additional heading must be chosen with these entries, where the given mass number limits are, to some degree, arbitrary) 25-XX, Nuclear reactions: specific reactions 26-XX, Nuclear astrophysics (see also 95.30.-k Fundamental aspects of astrophysics in astronomy) 23-XX, Radioactive decay and in-beam spectroscopy 24-XX, Nuclear reactions: general 21-XX, Nuclear structure (for nucleon structure, see 14.20.Dh Properties of protons and neutrons; 13.40.-f for electromagnetic processes and properties; 13.60.Hb for deep-inelastic structure functions) 20-XX, NUCLEAR PHYSICS 14-XX, Properties of specific particles 13-XX, Specific reactions and phenomenology 12-XX, Specific theories and interaction models; particle systematics 11-XX, General theory of fields and particles (see also 03.65.-w Quantum mechanics and 03.70.+k Theory of quantized fields) 10-XX, THE PHYSICS OF ELEMENTARY PARTICLES AND FIELDS (for cosmic rays, see 96.40.-z in astronomy; for experimental methods and instrumentation for elementary-particle physics, see section 29) 07-XX, Instruments, apparatus, and components common to several branches of physics and astronomy (see also each subdiscipline for specialized instrumentation and techniques) 06-XX, Metrology, measurements, and laboratory procedures (for laser applications in metrology, see 42.62.Eh) 05-XX, Statistical physics, thermodynamics, and nonlinear dynamical systems (see also 02.50.-r Probability theory, stochastic processes, and statistics) 03-XX, Quantum mechanics, field theories, and special relativity (see also section 11 General theory of fields and particles) 04-XX, General relativity and gravitation (see also 95.30.Sf in astronomy) 02-XX, Mathematical methods in physics 01-XX, Communication, education, history, and philosophy 00-XX, GENERAL 95.30.Gv, Radiation mechanisms; polarization 95.30.Jx, Radiative transfer; scattering 95.30.Ky, Atomic and molecular data, spectra, and spectral parameters (opacities, rotation constants, line identification, oscillator strengths, gf values, transition probabilities, etc.) (see also 32.10.-f, 32.30.-r, 32.70.-n, 33.15.-e, 33.20.-t, and 33.70.-w in a 95.30.Lz, Hydrodynamics 95.30.Qd, Magnetohydrodynamics and plasmas (see also 52.30.Cv and 52.72.+v in physics of plasmas) 95.30.Sf, Relativity and gravitation (see also section 04 General relativity and gravitation; 98.80.Jk Mathematical and relativistic aspects of 95.30.Tg, Thermodynamic processes, conduction, convection, equations of state (see also 05.70.-a Thermodynamics) 95.30.Wi, Dust processes (condensation, evaporation, sputtering, mantle growth, etc.) 95.35.+d, Dark matter (stellar, interstellar, galactic, and cosmological) (see also 95.30.Cq Elementary particle processes; for brown dwarfs, see 97.20.Vs; for galactic halos, see 98.35.Gi or 98.62.Gq; for models of the early Universe, see 97.10.Fy) 95.40.+s, Artificial Earth satellites (for lunar and planetary probes, see 95.55.Pe; see also 07.87.+v in instruments, apparatus, and components common to several branches of physics and astronomy) 95.45.+i, Observatories and site testing 95.55.-nxx, Astronomical and space-research instrumentation (see also 94.80.+g Instrumentation for aeronomy and magnetospheric studies; 07.87.+v Spaceborne and space research instruments, apparatus, and 95.55.-n, Astronomical and space-research instrumentation (see also 94.80.+g Instrumentation for aeronomy and magnetospheric studies; 07.87.+v Spaceborne and space research instruments, apparatus, and 95.55.Aq, Charge-coupled devices, image detectors, and IR detector arrays (see also 85.60.Gz Photodetectors) 95.55.Br, Astrometric and interferometric instruments 95.55.Cs, Ground-based ultraviolet, optical and infrared telescopes 95.55.Ev, Solar instruments 95.55.Fw, Space-based ultraviolet, optical, and infrared telescopes 95.55.Jz, Radio telescopes and instrumentation; heterodyne receivers 95.55.Ka, X- and gamma-ray telescopes and instrumentation 95.55.Pe, Lunar, planetary, and deep-space probes 95.55.Qf, Photometric, polarimetric, and spectroscopic instrumentation (see also 07.60.-j Optical instruments, equipment, and techniques) 95.55.Rg, Photoconductors and bolometers (see also 07.57.Kp Bolometers, infrared submillimeter wave, microwave, and radiowave receivers and 95.55.Sh, Auxiliary and recording instruments; clocks and frequency standards 95.55.Vj, Neutrino, muon, pion, and other elementary particle detectors; cosmic ray detectors (see also 29.40.-n Radiation detectors-in nuclear physics) 95.55.Ym, Gravitational radiation detectors; mass spectrometers; and other instrumentation and techniques (see also 04.80.-y Experimental studies of gravity in general relativity and gravitation) 95.75.-zxx, Observation and data reduction techniques; computer modeling and simulation 95.75.-z, Observation and data reduction techniques; computer modeling and simulation 95.75.De, Photography and photometry (including microlensing techniques) 95.75.Fg, Spectroscopy and spectrophotometry 95.75.Hi, Polarimetry 95.75.Kk, Interferometry 95.75.Mn, Image processing (including source extraction) 95.75.Pq, Mathematical procedures and computer techniques 95.75.Qr, Adaptive and segmented optics (see also 42.68.Wt Remote sensing; LIDAR and adaptive systems in atmospheric optics) 95.75.Rs, Remote observing techniques 95.75.Tv, Digitization techniques (see also 07.05.Pj Image processing in 95.75.Wx, Time series analysis, time variability 95.80.+p, Astronomical catalogs, atlases, sky surveys, databases, retrieval systems, archives, etc. 95.85.-exx, Astronomical observations (additional primary heading(s) must be chosen with these entries to represent the astronomical objects and/or properties studied) 95.85.-e, Astronomical observations (additional primary heading(s) must be chosen with these entries to represent the astronomical objects and/or properties studied) 95.85.Bh, Radio, microwave (>1 mm) 95.85.Fm, Submillimeter (300 mum-1 mm) 95.85.Gn, Far infrared (10-300 mum) 95.85.Hp, Infrared (3-10 mum) 95.85.Jq, Near infrared (0.75-3 mum) 95.85.Kr, Visible (390-750 nm) 95.85.Ls, Near ultraviolet (300-390 nm) 95.85.Mt, Ultraviolet (10-300 nm) 95.85.Nv, X-ray 95.85.Pw, gamma-ray 95.85.Ry, Neutrino, muon, pion, and other elementary particles; cosmic rays 95.85.Sz, Gravitational radiation, magnetic fields, and other observations 95.90.+v, Historical astronomy and archaeoastronomy; and other topics in fundamental astronomy and astrophysics; instrumentation, techniques, and astronomical observations 96., Solar System (for the Earth, see sections 91-94) 96.10.+i, General, solar nebula, and cosmogony 96.20.-nxx, Moon 96.20.-n, Moon 96.20.Br, Origin, formation, and age 96.20.Dt, Features, landmarks, mineralogy, petrology, and atmosphere 96.20.Jz, Gravitational field, selenodesy, magnetic fields 96.20.Ka, Cratering 96.30.-txx, Planets, their satellites and rings; asteroids (for comets, see 96.50.Gn) 96.30.-t, Planets, their satellites and rings; asteroids (for comets, see 96.50.Gn) 96.30.Dz, Mercury 96.30.Ea, Venus 96.30.Gc, Mars 96.30.Kf, Jupiter 96.30.Mh, Saturn 96.30.Pj, Uranus 96.30.Rm, Neptune 96.30.Sn, Pluto 96.30.Wr, Planetary rings 96.30.Ys, Asteroids (minor planets) 96.35.-jxx, Planetary, asteroid, cometary, and satellite characteristics and properties (see also 97.82.-j for extrasolar planetary systems) 96.35.-j, Planetary, asteroid, cometary, and satellite characteristics and properties (see also 97.82.-j for extrasolar planetary systems) 96.35.Cp, Origin, formation, evolution, and ages 96.35.Er, Chemical composition 96.35.Fs, Mass, size; gravitational fields; rotation; orbits 96.35.Gt, Surface features, cratering, and topography 96.35.Hv, Neutral atmospheres 96.35.Kx, Ionospheres; magnetospheres 96.35.Mz, Interiors 96.35.Na, Volcanism and tectonics 96.35.Pb, Electric and magnetic fields 96.35.Se, Interplanetary comparisons 96.40.-zxx, Cosmic rays (for cosmic rays outside the Solar System, see 98.70.Sa; for cosmic-ray interactions, see 13.85.Tp in hadron-induced high- and super high-energy interactions) 96.40.-z, Cosmic rays (for cosmic rays outside the Solar System, see 98.70.Sa; for cosmic-ray interactions, see 13.85.Tp in hadron-induced high- and super high-energy interactions) 96.40.Cd, Interplanetary propagation and effects 96.40.De, Composition, energy spectra, and interactions 96.40.Fg, Energetic solar particles and photons 96.40.Kk, Solar modulation and geophysical effects 96.40.Pq, Extensive air showers 96.40.Tv, Neutrinos and muons 96.40.Vw, Cosmic-ray effects in meteorites and terrestrial matter 96.50.-exx, Interplanetary space (for asteroids, see 96.30.Ys) 96.50.-e, Interplanetary space (for asteroids, see 96.30.Ys) 96.50.Bh, Solar and interplanetary electric and magnetic fields (including solar wind fields) 96.50.Ci, Solar wind plasma 96.50.Dj, Interplanetary gas and dust (including gegenschein and zodiacal 96.50.Ek, Solar wind interactions with planets, satellites, and comets (for interactions with Earth, see 94.30.Va) 96.50.Fm, Shock waves 96.50.Gn, Comets 96.50.Hp, Oort cloud 96.50.Jq, Kuiper belt 96.50.Kr, Meteors, meteoroids, and meteor streams 96.50.Mt, Meteorites, micrometeorites, and tektites 96.50.Pw, Particle acceleration 96.50.Qx, Stream-stream interactions 96.50.Ry, Waves and discontinuities 96.60.-jxx, Solar physics 96.60.-j, Solar physics 96.60.Bn, Diameter, figure, rotation, mass 96.60.Fs, Chemical composition 96.60.Hv, Electric and magnetic fields 96.60.Jw, Solar interior (for solar neutrinos, see 26.65.+t in nuclear astrophysics) 96.60.Ly, Oscillations and waves; helioseismology 96.60.Mz, Photosphere, granulation 96.60.Na, Chromosphere and chromosphere-corona transition; spicules 96.60.Pb, Corona; coronal loops, streamers, and holes 96.60.Qc, Sunspots, faculae, plages 96.60.Rd, Flares, bursts, and related phenomena 96.60.Se, Prominences 96.60.Tf, Solar electromagnetic radiation (see also 92.60.Vb Solar radiation 96.60.Vg, Particle radiation, solar wind, and solar neutrinos (see also 96.50.Ci Solar wind plasma and 96.50.Ek Solar wind interactions with planets, satellites, and comets; see also 26.65.+t Solar neutrinos in nuclear astrophysics) 96.60.Wh, Coronal mass ejection 96.90.+c, Other topics on the solar system (restricted to new topics in section 96) 97., Stars 97.10.-qxx, Stellar characteristics and properties (see also 04.40.Dg Relativistic stars in general relativity and gravitation and section 26 Nuclear astrophysics) 97.10.-q, Stellar characteristics and properties (see also 04.40.Dg Relativistic stars in general relativity and gravitation and section 26 Nuclear astrophysics) 97.10.Bt, Star formation 97.10.Cv, Stellar structure, interiors, evolution, nucleosynthesis, ages 97.10.Ex, Stellar atmospheres (photospheres, chromospheres, coronae, magnetospheres); radiative transfer; opacity and line formation 97.10.Fy, Circumstellar shells, clouds, and expanding envelopes; circumstellar masers (for interstellar masers, see 98.38.Er or 98.58.Ec) 97.10.Gz, Accretion and accretion disks 97.10.Jb, Stellar activity 97.10.Kc, Stellar rotation 97.10.Ld, Magnetic and electric fields; polarization of starlight 97.10.Me, Mass loss and stellar winds 97.10.Nf, Masses 97.10.Pg, Radii 97.10.Qh, Surface features (including starspots) 97.10.Ri, Luminosities; magnitudes; effective temperatures, colors, and spectral classification 97.10.Sj, Pulsations, oscillations, and stellar seismology 97.10.Tk, Abundances, chemical composition 97.10.Vm, Distances, parallaxes 97.10.Wn, Proper motions and radial velocities (line-of-sight velocities); space motions (see also 95.10.Jk Astrometry and reference systems) 97.10.Xq, Luminosity and mass functions 97.10.Yp, Star counts, distribution, and statistics 97.10.Zr, Hertzsprung-Russell, color-magnitude, and color-color diagrams 97.20.-wxx, Normal stars (by class): general or individual 97.20.-w, Normal stars (by class): general or individual 97.20.Ec, Main-sequence: early-type stars (O and B) 97.20.Ge, Main-sequence: intermediate-type stars (A and F) 97.20.Jg, Main-sequence: late-type stars (G, K, and M) 97.20.Li, Giant and subgiant stars 97.20.Pm, Supergiant stars 97.20.Rp, Faint blue stars (including blue stragglers), white dwarfs, degenerate stars, nuclei of planetary nebulae (for planetary nebulae, see 98.38.Ly or 98.58.Li) 97.20.Tr, Population II stars (horizontal branch, metal poor, etc.) 97.20.Vs, Low luminosity stars, subdwarfs, and brown dwarfs 97.20.Wt, Population III stars 97.21.+a, Pre-main sequence objects, young stellar objects (YSO's) and protostars (T Tauri stars, Orion population, Herbig-Haro objects, Bok globules, bipolar outflows, cometary nebulae, etc.) (see also 98.38.Fs and 98.58.Fd Jets, outflows and bipolar flows in the 97.30.-bxx, Variable and peculiar stars (including novae) 97.30.-b, Variable and peculiar stars (including novae) 97.30.Dg, Low-amplitude blue variables (alpha Cygni, beta Cephei, delta Scuti, delta Delphini, delta Canis Majoris, SX Phoenicius, etc.) 97.30.Eh, Emission-line stars (Of, Be, Luminous Blue Variables, Wolf-Rayet, 97.30.Fi, Chemically peculiar stars (Ap, Am, etc.) 97.30.Gj, Cepheids (delta Cephei, W Virginis) 97.30.Hk, Carbon stars, S stars, and related types (C, S, R, and N) 97.30.Jm, Long-period variables (Miras) and semiregulars 97.30.Kn, RR Lyrae stars; RV Tauri and PV Telescopii variables 97.30.Nr, Flare stars (UV Ceti, RS Canum Venaticorum, FU Orionis, R Coronae Borealis variables, etc.) 97.30.Qt, Novae, dwarf novae, recurrent novae,and other cataclysmic (eruptive) variables (see also 97.80.Gm, Jp Cataclysmic binaries and X-ray binaries) 97.30.Sw, Unusual and peculiar variables 97.60.-sxx, Late stages of stellar evolution (including black holes) (see also 04.40.Dg Relativistic stars in general relativity and gravitation) 97.60.-s, Late stages of stellar evolution (including black holes) (see also 04.40.Dg Relativistic stars in general relativity and gravitation) 97.60.Bw, Supernovae (see also 26.30.+k Nucleosynthesis in novae, supernovae and other explosive stars and 26.50.+x Nuclear physics aspects of supernovae evolution) 97.60.Gb, Pulsars 97.60.Jd, Neutron stars (see also 26.60.+c Nuclear matter aspects of neutron stars in nuclear physics) 97.60.Lf, Black holes (see also 04.70.-s Physics of black holes in general relativity and gravitation; for galactic black holes, see 98.35.Jk and 98.62.Js) 97.80.-dxx, Binary and multiple stars 97.80.-d, Binary and multiple stars 97.80.Af, Astrometric and interferometric binaries 97.80.Di, Visual binaries 97.80.Fk, Spectroscopic binaries; close binaries 97.80.Gm, Cataclysmic binaries (novae, dwarf novae, recurrent novae, and nova-like objects); symbiotic stars (see also 97.30.Qt Novae) 97.80.Hn, Eclipsing binaries 97.80.Jp, X-ray binaries (see also 98.70.Qy X-ray sources and 97.60.Gb Pulsars) 97.80.Kq, Multiple stars 97.82.-jxx, Extrasolar planetary systems 97.82.-j, Extrasolar planetary systems 97.82.Cp, Photometric and spectroscopic detection; coronographic detection; 97.82.Fs, Substellar companions; planets 97.82.Jw, Infrared excess; debris disks; protoplanetary disks; exo-zodiacal 97.90.+j, Other topics on stars (restricted to new topics in section 97) 98., Stellar systems; interstellar medium; galactic and extragalactic objects and systems; the Universe 98.10.+z, Stellar dynamics and kinematics 98.20.-dxx, Stellar clusters and associations 98.20.-d, Stellar clusters and associations 98.20.Af, Associations of stars (OB, T, R) in the Milky Way 98.20.Bg, Associations of stars (OB, T, R) in external galaxies 98.20.Di, Open clusters in the Milky Way 98.20.Fk, Open clusters in external galaxies 98.20.Gm, Globular clusters in the Milky Way 98.20.Jp, Globular clusters in external galaxies 98.35.-axx, Characteristics and properties of the Milky Way galaxy 98.35.-a, Characteristics and properties of the Milky Way galaxy 98.35.Ac, Origin, formation, evolution, age, and star formation 98.35.Bd, Chemical composition and chemical evolution 98.35.Ce, Mass and mass distribution 98.35.Df, Kinematics, dynamics, and rotation 98.35.Eg, Electric and magnetic fields 98.35.Gi, Galactic halo 98.35.Hj, Spiral arms and galactic disk 98.35.Jk, Galactic center, bar, circumnuclear matter, and bulge (including black hole and distance measurements) (see also 04.70.-s Physics of black holes in general relativity and gravitation) 98.35.Ln, Stellar content and populations; morphology and overall structure 98.35.Mp, Infall and accretion 98.35.Nq, Galactic winds and fountains 98.35.Pr, Solar neighborhood 98.38.-jxx, Interstellar medium (ISM) and nebulae in Milky Way 98.38.-j, Interstellar medium (ISM) and nebulae in Milky Way 98.38.Am, Physical properties (abundances, electron density, magnetic fields, scintillation, scattering, kinematics, dynamics, turbulence, etc.) 98.38.Bn, Atomic, molecular, and chemical, and grain processes 98.38.Cp, Interstellar dust grains; diffuse emission; infrared cirrus 98.38.Dq, Molecular clouds, H2 clouds, dense clouds, and dark clouds 98.38.Er, Interstellar masers (for circumstellar masers, see 97.10.Fy) 98.38.Fs, Jets, outflows, and bipolar flows (for pre-main sequence objects, see 97.21.+a) 98.38.Gt, HI regions and 21-cm lines; diffuse, translucent, and high-velocity 98.38.Hv, HII regions; emission and reflection nebulae 98.38.Jw, Infrared emission 98.38.Kx, Intercloud medium (ICM); hot and highly ionized gas; bubbles 98.38.Ly, Planetary nebulae (for nuclei of planetary nebulae, see also 97.20.Rp) 98.38.Mz, Supernova remnants 98.52.-bxx, Normal galaxies; extragalactic objects and systems (by type) 98.52.-b, Normal galaxies; extragalactic objects and systems (by type) 98.52.Cf, Classification and classification systems 98.52.Eh, Elliptical galaxies 98.52.Lp, Lenticular (S0) galaxies 98.52.Nr, Spiral galaxies 98.52.Sw, Irregular and morphologically peculiar galaxies 98.52.Wz, Dwarf galaxies (elliptical, irregular, and spheroidal) 98.54.-hxx, Quasars; active or peculiar galaxies, objects, and systems 98.54.-h, Quasars; active or peculiar galaxies, objects, and systems 98.54.Aj, Quasars (for quasar absorption and emission-line systems; Lyman forest, see 98.62.Ra) 98.54.Cm, Active and peculiar galaxies and related systems (including BL Lacertae objects, blazars, Seyfert galaxies, Markarian galaxies, and active galactic nuclei) 98.54.Ep, Starburst galaxies and infrared excess galaxies 98.54.Gr, Radio galaxies 98.54.Kt, Protogalaxies; primordial galaxies 98.56.-pxx, Local group; Magellanic Clouds 98.56.-p, Local group; Magellanic Clouds 98.56.Ew, Elliptical galaxies 98.56.Ne, Spiral galaxies (M31 and M33) 98.56.Si, Magellanic Clouds and other irregular galaxies 98.56.Tj, Magellanic stream 98.56.Wm, Dwarf galaxies (elliptical, irregular, and spheroidal) 98.58.-wxx, Interstellar medium (ISM) and nebulae in external galaxies 98.58.-w, Interstellar medium (ISM) and nebulae in external galaxies 98.58.Ay, Physical properties (abundances, electron density, magnetic fields, scintillation, scattering, kinematics, dynamics, turbulence, etc.) 98.58.Bz, Atomic, molecular, chemical, and grain processes 98.58.Ca, Interstellar dust grains; diffuse emission; infrared cirrus 98.58.Db, Molecular clouds, H2 clouds, dense clouds, and dark clouds 98.58.Ec, Interstellar masers (for circumstellar masers, see 97.10.Fy) 98.58.Fd, Jets, outflows and bipolar flows (for pre-main sequence objects, see 97.21.+a) 98.58.Ge, HI regions and 21-cm lines; diffuse, translucent, and high-velocity 98.58.Hf, HII regions; emission and reflection nebulae 98.58.Jg, Infrared emission 98.58.Kh, Intercloud medium (ICM); hot and highly ionized gas; bubbles 98.58.Li, Planetary nebulae (for nuclei of planetary nebulae, see also 97.20.Rp) 98.58.Mj, Supernova remnants 98.58.Nk, Tidal tails; HI shells 98.62.-gxx, Characteristics and properties of external galaxies and extragalactic objects (for the Milky Way, see 98.35.-a) 98.62.-g, Characteristics and properties of external galaxies and extragalactic objects (for the Milky Way, see 98.35.-a) 98.62.Ai, Origin, formation, evolution, age, and star formation 98.62.Bj, Chemical composition and chemical evolution 98.62.Ck, Masses and mass distribution 98.62.Dm, Kinematics, dynamics, and rotation 98.62.En, Electric and magnetic fields 98.62.Gq, Galactic halos 98.62.Hr, Spiral arms and bars; galactic disks 98.62.Js, Galactic nuclei (including black holes), circumnuclear matter, and bulges (see also 04.70.-s Physics of black holes in general relativity and gravitation) 98.62.Lv, Stellar content and populations; radii; morphology and overall 98.62.Mw, Infall, accretion, and accretion disks (see also 04.70.-s Physics of black holes in general relativity and gravitation) 98.62.Nx, Jets and bursts; galactic winds and fountains 98.62.Py, Distances, redshifts, radial velocities; spatial distribution of galaxies (see also 98.80.Es Observational cosmology) 98.62.Qz, Magnitudes and colors; luminosities 98.62.Ra, Intergalactic matter; quasar absorption and emission-line systems; Lyman forest (for quasars, see 98.54.Aj; for intracluster matter see 98.65.Hb) 98.62.Sb, Gravitational lenses and luminous arcs (see also 95.30.Sf Relativity and gravitation in fundamental aspects of astrophysics and section 04 General relativity and gravitation) 98.62.Tc, Astrometry; identification 98.62.Ve, Statistical and correlative studies of properties (luminosity and mass functions; mass-to-light ratio; Tully-Fisher relation, etc.) 98.65.-rxx, Galaxy groups, clusters, and superclusters; large scale structure of 98.65.-r, Galaxy groups, clusters, and superclusters; large scale structure of 98.65.At, Interacting galaxies; galaxy pairs, and triples 98.65.Bv, Small and compact galaxy groups 98.65.Cw, Galaxy clusters 98.65.Dx, Superclusters; large-scale structure of the Universe (including voids, pancakes, great wall, etc.) 98.65.Fz, Galaxy mergers, collisions, and tidal interactions 98.65.Hb, Intracluster matter; cooling flows 98.70.-fxx, Unidentified sources of radiation outside the Solar System 98.70.-f, Unidentified sources of radiation outside the Solar System 98.70.Dk, Radio sources 98.70.Lt, IR sources (for IR sources in interstellar medium, see 98.38.Jw and/or 98.58.Jg) 98.70.Qy, X-ray sources; X-ray bursts (see also 97.30.Qt Novae, dwarf novae, 97.80.Jp X-ray binaries) 98.70.Rz, gamma-ray sources; gamma-ray bursts 98.70.Sa, Cosmic rays (including sources, origin, acceleration, and interactions) (see also 26.40.+r Cosmic ray nucleosynthesis in nuclear astrophysics) 98.70.Vc, Background radiations 98.80.-kxx, Cosmology (see also section 04 General relativity and gravitation; for origin and evolution of galaxies, see 98.62.Ai; for elementary particle and nuclear processes, see 95.30.Cq; for dark matter, see 95.35.+d; for superclusters and large-scale structure 98.80.-k, Cosmology (see also section 04 General relativity and gravitation; for origin and evolution of galaxies, see 98.62.Ai; for elementary particle and nuclear processes, see 95.30.Cq; for dark matter, see 95.35.+d; for superclusters and large-scale structure 98.80.Bp, Origin and formation of the Universe 98.80.Cq, Particle-theory and field-theory models of the early Universe (including cosmic pancakes, cosmic strings, chaotic phenomena, inflationary universe, etc.) (see also 11.25.-w Strings and branes, and 11.10.-z in general theory of fields and particles) 98.80.Es, Observational cosmology (including Hubble constant, distance scale, cosmological constant, early Universe, etc) 98.80.Ft, Origin, formation, and abundances of the elements (see also 26.35.+c Big Bang nucleosynthesis in nuclear astrophysics) 98.80.Jk, Mathematical and relativistic aspects of cosmology 98.80.Qc, Quantum cosmology (see also 04.60.-m Quantum gravity in general relativity and gravitation) 98.90.+s, Other topics on stellar systems; interstellar medium; galactic and extragalactic objects and systems; the Universe (restricted to new topics in section 98) 99.10.-xxx, Errata and other corrections 99.10.-x, Errata and other corrections 99.10.Cd, Errata 99.10.Fg, Publisher's note 99.10.Jk, Corrected article 95.10.Gi, Eclipses, transits, and occultations 95.10.Jk, Astrometry and reference systems 95.10.Km, Ephemerides, almanacs, and calendars |
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