new 11/94

1995 PACS, ALPHABETIC INDEX, S - Z

S

S-matrix theory, 11.55
Safety
-fission reactor, 28.41.T
-fusion reactor, 28.52.N
-laboratory, 06.60.W
-laser systems, 42.60.B
-medical physics, 87.50.N, P
Sample preparation, 06.60.E
Satellites
-artificial, 07.87
-Earth, 95.40
-lunar and planetary probes, 95.55.P
-interaction with solar wind, 96.50.E
-planetary, 96.30
Saturn, 96.30.M
SAW devices
-microelectronic, 85.40.W
-piezoelectric, 85.50.L
Scanners, optical, 42.79.L
Scanning electron microscopy, 61.16.B
Scanning probe microscopes, 07.79
Scanning tunneling microscopy
-biophysics and medical physics, 87.64.D
-instrumentation, 07.79.C
-structure determination, 61.16.C
Scattering
-Brillouin
-condensed matter, 78.35
-nonlinear optics, 42.65.E
-plasma waves, 52.35.N
-elastic
-atomic and molecular, 34.50
-pion, 25.80.D
-electron
-atomic and molecular collisions, 34.80
-in magnetic structure determinations, 75.25
-nuclear reactions, 25.30
-structure determination, 61.14
-in electronic transport
-metals and alloys, 72.15.Q
-semiconductors and insulators, 72.20.D
-thin films, 73.50.B
-general theory of, 03.80
-hadron-induced
-high-energy, 13.85
-low-energy, 13.75
-hyperon-induced, 25.80.P
-inelastic
-atomic and molecular, 34.50
-neutron, 25.40.F
-pion, 25.80.E
-laser-modified, 34.50.R, 34.80.Q
-muon, 25.30.M
-neutrino, 25.30.P
-neutron, 28.20.C
-structure determination, 61.12
-nonrelativistic theory, 03.65.N
-by phonons and magnons, 72.10.D
-pion inclusive, 25.80.L
-positron, 25.30.H
-relativistic theory, 11.80
-x-ray
-condensed matter, 78.70.C
-plasma, 52.25.N
-structure determination, 61.10
Scattering matrix, 11.55
Schlieren devices, 42.79.M
Schottky anomalies, 65.40.H
Schottky barriers, 73.30
Schottky defects, 61.72.J
Science
-in elementary and secondary school, 01.40.E
-history of, 01.65
-philosophy of, 01.70
Scintillation detectors, 29.40.M
Scintillations, optical, 42.25.K
Sea level, 92.10.H
Seafloor spreading, 91.25.J
Seas, regional, 93.30.R
Seawater, physical properties of, 92.10.B
Second sound (quantum fluids), 67.40.P
Secondary electron emission, 79.20.H
Secondary-ion mass spectroscopy (SIMS), 82.80.M
Sedimentation, 64.75, 83.70.H
-hydrology, 92.40.G
-marine geology, 91.50.J
Segregation, 64.75
Seiches, 92.10.J
Seismology, 91.30
Selenodesy, 96.20.J
Self-consistent field calculations
-atomic and molecular physics, 31.15.N
-electronic structure, solids, 71.10
-nuclear, 21.60.J
Self-diffusion
-in metals and alloys, 66.30.F
-in nonmetals, 66.30.H
Self-focusing, 42.65.J
Self-gravitating systems, 04.40
Self-induced transparency, 42.50.M
Semiclassical theories
-atomic physics, 31.15.G
-gauge fields, 11.15.K
-quantum mechanics, 03.65.S
Semiconductor detectors
-for nuclear physics, 29.40.W
-optoelectronic, 85.60
Semiconductor devices, 85.30
Semiconductor lasers, 42.55.P
Semiconductor switches, 85.30.F
Semiconductors
-amorphous (conductivity), 72.80.N
-thin films, 73.61.J
-band structure, 71.25.R, T
-conductivity, 72.20
-doping, 61.72
-impurity and defect absorption, 78.50.G
-impurity levels, 71.55
-integrated circuits, 85.40
-liquid
-conductivity of, 72.80.P
-energy states of, 71.20
-magnetic, 75.50.P
-nonlinear optical materials, 42.70.N
-photoemission, 79.60.E
-photoluminescence, 78.55
-semiconductor-electrolyte contacts, 73.40.M
-semiconductor-insulator-semiconductor structures, 73.40.T
-semiconductor-metal-semiconductor structures, 73.40.V
-semiconductor-to-insulator structure, 73.40.Q
-semiconductor-to-semiconductor contacts, 73.40
-surface treatments, 81.60.C
-thin films
-optical properties, 78.66
-transport processes, 73.50, 73.61
Semimetals
-electronic states, 71.20.C
-impurity and defect absorption, 78.50.J
-impurity and defect levels, 71.55.A
-self-diffusion in, 66.30.F
-visible and ultraviolet spectra, 78.40.K
Sensors, 07.07.D
-fiber-optical, 42.81.P
-optical, 42.79.P, Q
-in rheology, 83.85.G
Septa (beam optics), 41.85.N
Sequences and series, 02.30.L, M
Servo devices, 07.07.T
Set theory, 02.10.C
Seyfert galaxies, 98.54.C
Shear flows
-instability, 47.20.F
-steady (rheology), 83.50.A
-thick, 47.27.P
-thin wall-bounded, 47.27.L
Shear modulus
-materials treatment, 81.40.J
-mechanical properties of solids, 62.20.D
Shear stress, 83.10
Shear turbulence, 47.27.N
Shelf processes, 91.50.C
Shell model (nuclear structure), 21.60.C
Shells, structural mechanics of, 46.30
Shielding (nuclear technology), 28.41.Q
Shock tubes, 07.35
Shock waves
-chemical reaction kinetics, 82.40.F
-fluid dynamics, 47.40.N
-interplanetary, 96.50.F
-in plasma, 52.35.T
-plasma production and heating by, 52.50.L
-rheology, 83.50.T
-seismology, 91.30.M
-in solids, 62.50
-structural mechanics, 46.30.M
Short-range order
-amorphous materials, 61.43
-magnetically ordered materials, 75.40
Shutters, optical, 42.79.A
Signal processing
-in acoustics, 43.60
-electronic circuits for, 07.50.Q
-in optics, 42.79.S, T
Silicon, doping and ion implantation of, 61.72.T
Single-photon emission computed-tomography (SPECT), 87.59.T
Sintering (materials preparation), 81.20.E
Size effects
-bulk matter, 72.30
-thin films, 73.50.M
Skyrmions, 12.39.D
Slip (evidence of dislocations), 61.72.H
Slip flows, 47.45.G
-rheology, 83.50.L
Slurries, 83.70.H
Small-angle scattering
-neutron, 61.12.E
-x-ray, 61.10.L
Snow, 92.40.R
Soil moisture, 92.40.L
Sol-gel transition, 83.80.J
Solar cells and arrays, 84.60.J
Solar collectors and concentrators, 42.79.E
Solar flares, 96.60.R
Solar instruments, 95.55.E
Solar nebula, 96.10
Solar neutrinos, 96.60.K
Solar particles and photons, 96.40.F
Solar physics, 96.60
Solar streamers, 96.60.P
Solar system (see 96)
Solar waves, 96.60.L
Solar wind, 96.60.V
-electric and magnetic fields, 96.50.B
-interaction with magnetosphere, 94.30.V
-interactions with planets, satellites and comets, 96.50.E
Solid-fluid interfaces, 68.45
Solid helium, 67.80
Solid-liquid transitions, 64.70.D
Solid-phase epitaxy, 68.55.E
Solid-solid interfaces, 68.35
Solid-solid transitions, 64.70.K
-phase diagrams, 81.30
Solid-solution hardening, 81.40.C
Solid-state lasers, 42.55.P, R
Solid-state microwave circuits, 84.30.E
Solid-state plasma
-bulk matter, 72.30
-thin films, 73.50.M
Solid-vapor transitions, 64.70.H
Solidification, 64.70.D, 81.30.F
Solitons
-optical, 42.50.R
-optical fibers, 42.81.D
-in plasma, 52.35.S
Sols, 82.70.G
-rheology, 83.70.H
Solubility, 64.75
Solutions (mixtures), 83.70.G
-biomolecules, 87.15.D
-macromolecular and polymer, 61.25.H
-solubility, segregation and mixing, 64.75
-thermodynamics of, 82.60.L
Sonography (rheological technique), 83.85.E
Sonoluminescence, 78.60.M
Sorption, kinetics of, 68.45.D
Sound
-atmospheric, 43.28
-biological effects, 87.51
-generation and reproduction devices, 43.38
-physical effects, 43.35
-in plasma, 52.35.D
-in quantum crystals, 67.80.C
-underwater, 43.30
Soundings, ionospheric, 94.20.T
South America, 93.30.J
Southern Ocean, 93.30.Q
Space charge effects (dielectric materials), 77.50
Space charge-limited devices, 85.30.F
Space environment (biological effects), 87.65
Space groups (crystal symmetry), 61.50.E
Space vehicles, 07.87
Spaceborne and space-research instruments, 07.85, 95.55
Spacetime
-curved
-classical fields in, 04.40
-quantum field theory in, 04.62
-Einstein-Maxwell, 04.40.N
-with fluids, 04.40.N
-topology, 04.20.G
Spacetime topology, 04.20.G
Spallation reactions, 25.40.S
Spark gaps (plasma switches), 52.75.K
Sparks, 52.80.M
Spatial dimensions, measurement of, 06.30.B
Special relativity, 03.30
Specific heat
-liquids, 65.20
-magnetic materials, 75.40
-solids, 65.40
-superconductors, 74.25.B
Speckles, 42.30.M
SPECT, 87.59.T
Spectral analysis, 82.80.C
Spectral classification, stellar, 97.10.R
Spectral filters, 42.79.C
Spectral line intensity
-atomic, 32.70.F
-molecular, 33.70.F
Spectral line shape and shift
-atomic, 32.70.J
-molecular, 33.70.J
Spectral methods (computational techniques), 02.70.H
Spectral sources, electric-discharge, 52.80.Y
Spectrometers
-electron, 07.81
-gamma-ray, 07.85.N
-infrared, 07.57.T
-ion, 07.81
-magnetic resonance, 07.57.P
-microwave and radiowave, 07.57.P
-for nuclear physics, 29.30
-visible and ultraviolet, 07.60.R
-x-ray, 07.85.N
Spectrophotometry
-astronomical techniques, 95.75.F
-chemical analysis, 82.80.C
Spectroscopy
-in astronomy, 95.55.Q, 95.75.F
-in atomic and molecular physics, 39.30
-chemical analysis, 82.80
-in-beam (see 23)
-laser, 42.62.F
-optical, 07.60.R
-time-resolved, 78.47
Speech
-perception, 43.71
-processing, 43.72
-production, 43.70
Spheromak, 52.55.H
Spicules, 96.60.N
Spin-density waves, 75.30.F
Spin diffusion, 75.40.G
Spin echo, 76.60.L
Spin-glass models, 75.10.N
Spin glasses, magnetic properties of, 75.50.L
Spin Hamiltonians, 75.10.D
Spin-orbit coupling (condensed matter), 71.70.E
Spin ordering, 75.25
Spin-phonon interactions, 63.20
Spin-polarized hydrogen and helium, 67.65
Spin waves, 75.30.D
-at magnetic critical points, 75.40.G
-resonance, 76.50
Spinor structure, 04.20.G
Spiral galaxies, 98.52.N, 98.56.N
Spontaneous fission, 25.85.C
Spontaneous symmetry breaking
-gauge symmetries, 11.15.E
-other symmetries, 11.30.Q
Sports, physics of, 01.80
Spray coating techniques, 52.75.R, 81.15.R
Sputtering
-atom, molecule, and ion impact, 79.20.N
-film deposition, 81.15.C
Squeezed states, 42.50.D
SQUID devices, 85.25.D
Stacking faults, 61.72.N
Standards
-frequency (astronomical), 95.55.S
-metrology, 06.20.F
-optical, 42.72
-in physiological optics, 42.66.Q
Stark effect
-atoms, 32.60
-condensed matter, 71.70.E
-molecules, 33.55.B
Stark shift, dynamic, 42.50.H
Stars
-binary and multiple, 97.80
-characteristics and properties, 97.10
-formation, 97.10.B
-late stages of evolution, 97.60
-normal, 97.20
-relativistic, 04.40.D
-variable and peculiar, 97.30
State-to-state scattering analysis, 34.50.P
Statistical mechanics, 05.20
-displacive phase transitions, 63.75
-lattice vibrations, 63.70
-phase transitions in model systems, 64.60.C
-quantum, 05.30
Statistical models (atomic physics), 31.15.B
Statistical physics (see 05)
Statistical theories
-atomic and molecular collisions, 34.10
-chemical kinetics, 82.20.D
-foundations of, 02.50.K
-nuclear reactions, 24.60
-strong interactions, 12.40.E
Stellar clusters and associations, 98.20
Stellar seismology, 97.10.S
Stellar systems, 98.52
Stellar winds, 97.10.M
Stellarators, 52.55.H
Stereochemistry
-biomolecules, 87.15.B
-molecular physics, 33.15.B
Stereotactic radiosurgery, 87.53.L
Stimulated emission
-condensed matter, 78.45
-laser theory, 42.55.A
Stimulated scattering
-Brillouin and Rayleigh, 42.65.E
-Raman, 42.65.D
Stochastic analysis, 02.50
Stochastic models
-atomic and molecular collisions, 34.10
-chemical kinetics, 82.20.F
Stochastic processes, 05.40
Stoichiometry, 64.80.E
Stokes flow, 83.10
Stopping power, 34.50.B, 61.80.M
Storage rings, 29.20.D
Storage tubes, 85.10.M
Storms, 92.60.Q
Strains
-measurement of, 07.10.P
-solids, 62.20
-thin films, 68.60.B
Stratified flows, 47.55.H
Streamflow, 92.40.F
Stress relaxation, 62.40, 83.50.B
Strings
-cosmic, 98.80.C
-extended classical solutions, 11.27
-fundamental, 11.25
Strong-field excitation (quantum optics), 42.50.H
Strong interactions
-electromagnetic corrections, 13.40.K
-models, 12.40
-quantum chromodynamics, 12.38
-quark models, 12.39
-in unified theories, 12.10.D
Strongly correlated electron systems, 71.27
Structural acoustics, 43.40
Structural mechanics (shells, plates, and beams), 46.30
Structure
-amorphous metals and semiconductors, 61.43.D
-biomolecules, 87.15.B
-clusters, 36.40.M, 61.46
-crystalline solids, 61.66
-dendrites, 68.70
-disordered solids, 61.43
-fractals, 61.43
-fullerenes, 61.46
-galaxies, 98.62.L
-glasses, 61.43.F
-irradiation effects on, 61.80
-liquid crystals, 61.30
-liquids, 61.20, 61.25
-multilayers, 68.65
-nanoparticles, 61.46
-quantum crystals, 67.80.C
-quasicrystals, 61.44
-solid surfaces, 68.35.B
-stellar, 97.10.C
-superlattices, 68.65
-thin films, 68.55.J
-whiskers, 68.70
Sublimation, 64.70.H
Submillimeter wave receivers and detectors, 07.57.K
Submillimeter wave sources, 07.57.H
Subsonic flows, 47.40.D
Sum rules, 11.55.H
Summer schools, 01.30.B
Sun
-characteristic and properties, 96.60
-cosmic rays, 96.40.K
-radiation (meteorology), 92.60.V
Sunspots, 96.60.Q
Superconducting cables, 85.25.L
Superconducting devices and magnets, 85.25
Superconducting films, 74.76
Superconducting junctions (SN and SNS), 74.80.F
Superconducting materials, 74.70, 74.72
Superconducting wires, fibers, and tapes, 85.25.K
Superconductivity (see 74)
Superconductor-insulator transitions, 74.20.M
Superexchange interactions, 75.30.E
Superfluidity
-helium-3, 67.57
-helium-4, 67.40
-hydrodynamic aspects, 47.37
-mixed systems, 67.60
Superfluorescence, 42.50.F
Supergravity, 04.65
Superheavy elements
-properties, 27.90
-reactions and scattering, 25.70, 25.75
Superlattices
-electron states, 73.20.D
-growth and structure, 68.65
-magnetic properties, 75.50.R
-optical properties, 78.65
-photoemission and photoelectron spectra, 79.60.J
-superconductivity, 74.80.D
Supernova remnants
-external galaxies, 98.38.M
-Milky Way, 98.58.M
Supernovae, 97.60.B
Superplasticity, 62.20.F
Superradiance, 42.50.F
Supersonic flows, 47.40.K
Supersymmetric models, 12.60.J
Supersymmetric partners of known particles, 14.80.L
Supersymmetry, 11.30.P
Surface acoustic wave devices
-microelectronic, 85.40.W
-piezoelectric, 85.50.L
Surface acoustic waves
-piezoelectrics, 77.65.D
-surfaces and interfaces, 68.35.G
Surface barrier devices, 85.30.H
Surface collisions, 34.50.D, 79.20.R
Surface conductivity, 73.25
Surface double layers, 73.30
Surface dynamics, 68.35.J
Surface energy
-fluids, 68.10.C
-solids, 68.35.M
Surface flows, 83.50.L
Surface magnetism, 75.30.P
Surface plasmons, 73.20.M
Surface sheath (superconductivity), 74.60.E
Surface states, 73.20
Surface structure, 68.35.B
Surface tension, 68.10.C
Surface treatments, 81.60
Surface waves
-oceanography, 92.10.H
-seismology, 91.30.F
Surfaces (see 68)
-grinding (optical elements), 42.86
-optical properties, 78.66
-reactions, 82.65.J
-thermodynamics, 82.65.D
Surfactants, 83.70
Surveys, 01.30.R
Susceptibility, magnetic, 75.40.C
-biological tissues, 87.40
-at magnetic critical points, 75.40.G
-magnetic materials, 75.30.C
Susceptibility, optical, 42.65.A
Suspensions, 82.70.K
-dielectric properties, 77.84.N
-fluid flows, 47.15.P
-rheology, 83.70.H
Switches
-electrical, 85.20.S
-optical, 42.79.T
-plasma, 52.75.K
-semiconductor, 85.30.F
Switching
-lasers, 42.60.G
-nonlinear optics, 42.65.P
-piezoelectrics, 77.80.F
Symmetry
-crystal, 61.50.E
-molecular, 33.15.B
-in nuclear processes, 24.80.D
-theory of fields and particles, 11.30
Symmetry breaking, 11.30.Q
-gauge field theory, 11.15.E
Synaptic transmission, 87.22.J
Synchrocyclotrons, 29.20.M
Synchrotron radiation
-instrumentation, 07.85.Q
-by moving charges, 41.60.A
-in spin-arrangement determinations, 75.25
Synchrotrons, 29.20.L

T

Tandem mirrors (magnetic fusion confinement), 52.55.J
Tantalates, 77.84.D
Taus
-decays, 13.35.D
-properties, 14.60.F
Teacher training, 01.40.J
Teaching methods, 01.40.G
Technicolor models, 12.60.N
Technological research and development, 89.20
Tectonics, 91.45
Tektites, 96.50.M
Telescopes, astronomical, 95.55
Television cameras, 07.07.H
Temperate regions, 93.30.T
Temperature
-atmospheric, 94.10.D
-measurement of, 07.20.D
-stellar, 97.10.R
Tensile machines, 07.10.L
Tensile strength
-materials treatment, 81.40.L
-solids, 62.20.F
Tetrahedrally bonded nonmetals
-impurity and defect levels, 71.55
-photoluminescence, 78.55
-structure, 61.43
-visible and ultraviolet spectra, 78.40.F
Textbooks, 01.30.M, P
Texture
-materials treatment, 81.40.E
-superconductors, 74.80.B
-superfluid helium-3, 67.57.F
TGS crystals, 77.84.F
Thallium-based high-T[subon]c[suboff] superconductors, 74.72.F
Thermal blooming, 42.65.J
Thermal conduction
-amorphous and liquid metals and alloys, 72.15.C
-crystalline metals and alloys, 72.15.E
-gases, 51.20
-nonmetallic liquids, 66.60
-nonmetallic solids, 66.70
-superconductors, 74.25.F
Thermal expansion, 65.70
Thermal imaging (biomedical diagnostics), 87.59.W
Thermal instruments and techniques, 07.20
Thermal properties
-matter, 44.50
-quantum crystals, 67.80.G
-rocks, 91.60.K
Thermal stability (thin films), 68.60.D
Thermally stimulated currents
-dielectrics, 77.22.E
-thin films, 73.50.G
Thermionic emission, 79.40
Thermionic energy conversion, 52.75.F, 84.60.N
Thermistors, 85.20.E
Thermocouples, 07.20.D
Thermodynamic properties
-condensed matter, 65.50
-gases, 51.30
-liquid helium-3, normal phase, 67.55.C
-plasma, 52.25.K
-solutions, 82.60.L
-superconductors, 74.25.B
-superfluid helium-3, 67.57.B
-superfluid helium-4, 67.40.K
-surfaces and interfaces (physical chemistry), 68.35.M, 82.65.D
Thermodynamics, 05.70
-astrophysics, 95.30.T
-black holes, 04.70.D
-chemical, 82.60
-nonequilibrium, 05.70.L
-nucleation, 82.60.N
Thermoelectric devices, 85.80.F
Thermoelectric effects
-metals and alloys, 72.15.J
-semiconductors and insulators, 72.20.P
-superconductors, 74.25.F
-thin films, 73.50.L
Thermoelectric energy conversion, 84.60.R
Thermoelectromagnetic devices, 85.80
Thermoforming, 83.50
Thermography, 87.59.W
Thermohaline structure, 92.10.M
Thermoluminescence, 78.60.K
Thermomagnetic effects
-metals and alloys, 72.15.H
-semiconductors and insulators, 72.20.N
-thin films, 73.50.J
Thermomechanical effects, 65.70
Thermomechanical treatment of materials, 81.40.G
Thermometry, 07.20.D
Thermonuclear technology, 28.52
Thermooptical effects, 78.20.N
Thermoreversible gels, 83.70.H
Thermorheological properties, 83.50.S
Thermotherapy, 87.54.B
Thickening flows, 83.50.Q
Thin films
-conductivity of specific films, 73.61
-deposition methods, 81.15
-devices, magnetic, 85.70.K
-dielectric, 77.55
-growth, structure, and epitaxy, 68.55
-integrated electronics, 85.40
-integrated optics, 42.82
-liquid, 68.15
-magnetic, 75.70
-optical coatings, 42.79.B
-optical properties, 78.66
-photoemission and photoelectron spectra, 79.60.D
-superconducting, 74.76
-transport phenomena, 73.50
Thixotropy, 83.50.Q
Thomas-Fermi-Dirac model, 31.15.B
Thomas-Fermi model
-electronic structure
-atoms and molecules, 31.15.B
-condensed matter, 71.45.J
-nuclear structure, 21.60
Thyristors, 85.30.R
Tides
-atmospheric
-aeronomy, 94.10.J
-meteorology, 92.60.D
-Earth, 91.10.T
-oceanography, 92.10.H
Time, measurement of, 06.30.F
Titanates, 77.84.D
Tokamaks, 52.55.F
Tomography
-computerized, 87.59.F
-optical, 42.30.W
-PET, 87.59.V
-SPECT, 87.59.T
Topography
-Earth, 91.10.J
-Moon, 96.20.D
-planets, 96.35.G
Topological groups, 02.20.N
Topology, algebraic, 02.40.P, R
Toroidal confinement devices, 52.55.H
Torque, measurement of, 07.10.P
Townsend discharge, 52.80.D
Toys, physics of, 01.50.W
Tracer reactions, 82.55
Tracer techniques (nuclear medicine), 87.59.Q
Trajectory models
-atomic and molecular collisions, 34.10
-chemical kinetics, 82.20.F
Transducers
-acoustics, 43.38
-biophysics, 87.22.F
-general instrumentation, 07.07.M
-microelectronics, 85.40.W
Transfer functions, optical, 42.30.L
Transfer reactions
-deuterium-induced, 25.45.H
-heavy-ion-induced, 25.70.H
-nucleon-induced, 25.40.H
Transformers, 85.20.J
Transient phenomena
-deformation, 83.50.B
-quantum optics, 42.50.M
Transistors
-bipolar, 85.30.P
-field effect, 85.30.T
-microelectronics, 85.40.T, V
Transition-metal compounds, electrical conductivity of, 72.80.G
Transition probabilities
-atomic, 32.70.C
-molecular, 33.70.C
-nuclear, 23.20
Transition state theories (chemical kinetics), 82.20.D
Transition temperature (superconductivity), 74.62
Transmembrane processes, 87.22.F
Transmission electron microscopy, 61.16.B
Transmission lines
-accessories and cables, 84.40.R
-theory, 84.40.M
Transonic flows, 47.40.H
Transport processes
-gases, 51.10
-helium-3
-normal phase, 67.55.H
-superfluid, 67.57.H
-helium-4, superfluid, 67.40.P
-interfaces, 73.40
-membranes (biological), 87.22.F
-metals and alloys, 72.15
-neutron, 28.20.G
-nonelectronic (see 66)
-plasma, 52.25.F
-semiconductors and insulators, 72.20
-specific materials, 72.80
-superconductors, 74.25.F
-theory, 05.60
-thin films, 73.50, 73.61
Transportation, 89.40
Trapped particles (magnetosphere), 94.30.H
Trapping, charge carriers
-bulk matter, 72.20.J
-thin films, 73.50.G
Traveling-wave tubes, 85.10.J
Treatment planning, 87.53.T
Tribology
-rheology, 83.50.L
-structural mechanics, 46.30.P
Triboluminescence, 78.60.M
Triple points, 64.60.K
Triton-induced reactions, 25.55
Tropical regions, 93.30.V
Tsunamis, 91.30.N
Tumbling flows, 83.20, 83.70.J
Tunnel junction devices, 85.30.M
Tunneling
-interface structures, 73.40.G
-superconductors, 74.50
Turbidity currents (marine geology), 91.50.J
Turbulence
-aeronomy, 94.10.L
-atmospheric optics, 42.68.B
-fluid dynamics, 47.27
-meteorology, 92.60.E
-oceanography, 92.10.L
-plasma, 52.35.R
-quantum fluids, 67.40.V
Tutorial papers, 01.30.R
21-cm lines (hydrogen)
-external galaxies, 98.58.G
-Milky Way, 98.38.G
Twin boundaries, 61.72.M

U

Ultrafast chemical reactions, 82.40.J
Ultrafast optical processes
-nonlinear optics, 42.65.R
-time-resolved spectra, 78.47
Ultrasonic attenuation (superconductors), 74.25.L
Ultrasonic relaxation, 62.80
Ultrasonics, 43.35
Ultrasonography, 87.59.M
Ultrasound, 43.35
-bioacoustics, 43.80
-biological effects, 87.51
-diagnostic imaging, 87.59.M
Ultraviolet radiation
-astronomical observations, 95.85
-biological effects, 87.50.G
-in plasma, 52.25.Q
-surface irradiation effects, 61.80.B
Ultraviolet spectra
-atoms, 32.30.J
-chemical analysis, 82.80.C
-condensed matter, 78.40
-molecules, 33.20.L, N
Underwater
-acoustics, 43.30
-light and radiation, 92.10.P
-morphology, 91.50.G
Underwater sound
-acoustics, 43.30
-oceanography, 92.10.V
Unified field theories, 04.50, 12.10
-gravity in more than four dimensions, 04.50
-models beyond the standard models, 12.60
Units of measurement, 06.20.F
Universe
-Early, 98.80.C
-origin and formation, 98.80.B
Uranus, 96.30.P
Urban planning and development, 89.50

V

Vacancies, in crystals, 61.72.J
Vacuum chambers, 07.30.K
Vacuum deposition, 81.15.E
Vacuum gauges, 07.30.D
Vacuum metallurgy, 81.20
Vacuum microelectronics, 85.45
Vacuum production, 07.30
Vacuum tubes, 85.10.F
Valence bond calculations, 31.15.R
Valence fluctuation
-diamagnetism and paramagnetism, 75.20.H
-magnetically ordered materials, 75.30.M
van der Waals molecules, 34.30
Vapor-liquid transitions, 64.70.F
Vapor phase epitaxy, 68.55.C
Vapor-solid transitions, 64.70.H
Variable stars (including novae), 97.30
Variational principles
-elementary particles, 11.80.F
-general relativity, 04.20.F
Variational techniques (atomic physics), 31.15.P
Varistors, 85.20.E
Velocimeters, laser Doppler, 42.79.Q
Velocity measurement, 06.30.G
Venus, 96.30.E
Vibration isolation, 07.10.F
Vibration-rotation constants, 33.15.M
Vibration-rotational analysis, 33.20.V
Vibrational constants, molecular, 15.M, 33
Vibrational energy transfer, 34.50.E
Vibrational levels
-macromolecules, 36.20.N
-molecules, 33.20.T
-nuclear, 21.60.E
Vibrations
-crystal lattices, 63.70
-disordered systems, 63.50
-mechanical, 46.30.M
-mechanical properties of solids, 62.30
-solid-fluid interfaces, 68.45.K
-solid surfaces and interfaces, 68.35.J
Vibronic interactions, 33.20.W
Viscoelasticity
-fluid interfaces, 68.10.E
-rheology, 83.50.E, G
Viscometry, 83.85.J
Viscoplasticity, 83.50.N
Viscosity
-fluid interfaces, 68.10.E
-gases, 51.20
-liquids, 66.20
Viscous instability, 47.20.G
Visible and ultraviolet spectrometers, 07.60.R
Visible radiation
-astronomical observations, 95.85.K
-biological effects, 87.50.H
-medical imaging, 87.59.W
-in plasma, 52.25.R
-surface irradiation effects, 61.80.B
Visible spectra
-atoms, 32.30.J
-condensed matter, 78.40
-molecules, 33.20.K
-solids and liquids, 78.40
Vision
-computer, 42.30.T
-physiological, 42.66
Visual perception, 42.66.S
Vitroceramics, 81.20.Q
VLSI, 85.40
Voids (crystal defects), 61.72.Q
Volcanology, 91.40
Vortices-diffusion systems (chemical kinetics), 82.40.C
Vorticity
-helium-3, 67.57.F
-helium-4, 67.40.V
-laminar flows, 47.15.K
-rotational flows, 47.32.C

W

Wakes, 47.27.V
Water resources and quality, 92.40.Q
Wave equations
-quantum mechanics (solutions of), 03.65.G
-relativistic, 03.65.P
Wave fronts, 42.15.D
Wave optics, 42.25
Waveguides
-integrated-optical, 42.82.E
-non-fiber, 42.79.G
-optical fiber, 42.81.Q
-plasma-filled, 52.40.F
-radiowave and microwave, 84.40.S, Y
Weak interactions
-atoms, 32.80.Y
-beta decay, 23.40.B
-electromagnetic corrections, 13.40.K
-leptons, 13.10
-models of, 12.15
Weak links
-superconductivity, 74.50
-superfluidity, 67.40.R
Wear
-materials treatment, 81.40.P
-mechanics, 46.30.P
Weather analysis and prediction, 92.60.W
Weightlessness, biological effects of, 87.65
Weissenberg effect, 83.50.E
Welding (workshop techniques), 06.60.V
Westheimer method, 31.15.C
Wetting
-fluid surfaces and fluid-fluid interfaces, 68.10
-solid-fluid interfaces, 68.45.G
Whiskers, 68.70
Whistler waves
-magnetosphere, 94.30.T
-plasma, 52.35.H
White dwarfs, 97.20.R
Wiberg method, 31.15.C
Wiggler magnets, 41.85.L
Winds
-aeronomy, 94.10.J
-meteorology, 92.60.G
Wood (rheology), 83.80.L
Work function, 73.30
Work hardening, 81.40.E
Workshop techniques, 06.60.V

X

X-ray binary stars, 97.80.J
X-ray detectors, 07.85.F
X-ray diffraction
-biophysics and medical physics, 87.64.B
-crystallography, 61.10
X-ray diffractometers, 07.85.N
X-ray dosimetry, 87.53.B, D
X-ray gratings, 07.85.F
X-ray lasers, 42.55.V
X-ray mirrors, 07.85.F
X-ray photoelectron spectra
-molecules, 33.60.F
-surface analysis, 79.60
X-ray radiography, 87.59.B
-digital, 87.59.H
X-ray sources
-galactic and stellar, 97.80.J, 98.70.Q
-instrumentation, 07.85.F
X-ray spectra
-astronomical observations, 95.85.N
-atoms, 32.30.R
-condensed matter, 78.70.D, E
-molecules, 33.20.R
X-ray spectrometers, 07.85.N
X-ray spectroscopy
-biophysics and medical physics, 87.64.F
-chemical analysis, 82.80.E
-nuclear physics, 29.30.K
X-ray telescopes, 95.55.K
X-ray topography (crystal defects), 61.72.F
X rays
-beam optics, 41.50
-biological effects, 87.50.G
-emission, absorption, and scattering in plasma, 52.25.N
-emission threshold, 78.70.E
-plasma diagnostics, 52.70.L
-radiation damage by, 61.80.C
-scattering (condensed matter), 78.70.C
-in spin arrangement determinations, 75.25
XANES, 61.10.L
Xerography, 07.68

Y

Yield strength, 62.20.F, 83.50.N
Yttrium-based high-T[subon]c[suboff] superconductors, 74.72.B

Z

Zeeman effect
-atoms, 32.60
-condensed matter, 71.70.E
-molecules, 33.55.B
Zeolites, 83.80.P
Zodiacal light, 96.50.D
Zone melting and refining, 81.10.H
Zone plates, 42.79.C