new 11/94

1995 PACS, ALPHABETIC INDEX, D - G

D

D region, ionosphere, 94.20.E
Dark matter, 95.35
Data acquisition, 07.05.H
Data analysis, algorithms for, 07.05.K
Data management, 07.05.K
Data visualization, algorithms for, 07.05.R
Databases, astronomical, 95.80
de Haas-van Alphen effect, 71.25.H
Decay
-baryons, 13.30
-electromagnetic, 13.40.H
-heavy neutrinos, 13.35.H
-intermediate bosons, 13.38
-mesons
-hadronic, 13.25
-leptonic and semileptonic, 13.20
-muons, 13.35.B
-by proton emission, 23.50
-radioactive (see 23)
-taus, 13.35.D
Decision theory, 02.50.L
Decomposition reactions, 82.30.L
Defect levels
-bulk matter, 71.55
-surfaces and interfaces, 73.20.H
Defects, crystal, 61.72
-absorption spectra, 78.50
-determination by diffraction and scattering, 61.72.D
-diffusion, 66.30.L
-direct observations, 61.72.D
-EPR, 76.30.M
-formation and annealing, 61.72.C
-gettering effect, 61.72.Y
-indirect evidence, 61.72.H
-quantum crystals, 67.80.M
-scattering by (electronic transport), 72.10.F
-solid surfaces and solid-solid interfaces, 68.35.D
-superconductors, 74.62.D
-thin films, 68.55.L
Defects, liquid crystals, 61.30.J
Deflectors (optical devices), 42.79.F
Deformation
-effects of materials treatment, 81.40.L
-kinematics, 83.10.B
-material flow, 83.50
-mathematical aspects, 03.40.D
-mechanical properties of solids, 62.20.F
Degasification, 07.30.B
Delay equations, in function theory, 02.30.K
Delay lines, microelectronic, 85.40.W
Delocalization processes (surface and interface electron states),
73.20.J
Demodulators, 84.30.Q
Demonstration experiments and apparatus, 01.50.M
Demultiplexers, 42.79.S
Dendrites, 68.70
Density, measurement of, 06.30.D
Density-functional theory
-atomic and molecular physics, 31.15.E
-condensed matter, 71.10
Density of states, electron, 71.20
-surfaces and interfaces, 73.20
Depolarization effects (dielectrics), 77.22
Deposition of films and coatings, 81.15
Design of experiments (computers), 07.05.F
Desorption
-chemisorption, 82.65.M
-field induced, 79.70
-solid-fluid interfaces, 68.45.D
Detectors
-bolometers, 07.57.K
-Cherenkov, 29.40.K
-for elementary-particle and nuclear physics, 29.40
-infrared, 07.57.K, 85.60.G
-microwave, 07.57.K
-optical, 42.79.P
-radiowave, 07.57.K
-scintillation, 29.40.M
-solid-state, 29.40.W
-submillimeter wave, 07.57.K
-tracking and position-sensitive, 29.40.G
-x-ray, 07.85.F
Detonation phenomena (fluid dynamics), 47.40
Deuteron-induced reactions, 25.45
Dialysis, membrane, 82.65.F, 87.22.F
Diamagnetic resonance, 76.40
Diamagnetism, 75.20
Diamond anvil cells, 07.35
Diaphragms, optical, 42.79.A
Diatomic molecules, electron correlation in, 31.25.N
Dibaryons, 14.20.P
Dichroism (molecules), 33.55
Dictionaries, 01.30.K
Dielectric breakdown, 77.22.J
Dielectric devices, 85.50
Dielectric function, 77.22.C
-collective excitations, 71.45.G
Dielectric loss and relaxation, 77.22.G
Dielectric materials, 77.84
-thin films, 77.55
Dielectric properties
-gases, 51.70
-plasma, 52.25.M
-solids and liquids, 77.22
Differential equations
-numerical approximation and analysis, 02.60.L
-ordinary, 02.30.H
-partial, 02.30.J
Differential geometry
-classical, 02.40.H
-global, 02.40.M
Diffraction
-electron, 61.14
-neutron, 61.12
-optical, 42.25.F
-x-ray, 61.10
Diffractometers
-electron, 07.78
-x-ray, 07.85.J
Diffusion
-aeronomy, 94.10.L
-in atmosphere, 92.60.E
-clusters, 36.40.V
-in crystal growth, 81.10.J
-in gases, 51.20
-in liquids, 66.10.C
-momentum transport, 66.20
-neutron, 28.20.G
-oceanography, 92.10.L
-in quantum crystals, 67.80.M
-at solid surfaces and solid-solid interfaces, 68.35.F
-in solids, 66.30
-spin, 75.40.G
-turbulent, 47.27.Q
Diffusion-limited aggregation, 61.43.H
Digital circuits, 84.30.S
Digital radiography, 87.59.H
Dilatancy, 83.50.Q
Dinh-Armstrong equation, 83.20.D
Diodes
-junction, 85.30.K
-laser, 42.55.P
-light-emitting, 85.60.J
-plasma, 52.75.F
-high-voltage, 52.75.P
Dirac equation, 03.65.P
Dirty superconductors, 74.80.B
Discharges, electric, 52.80
Disclinations
-crystals, 61.72.L
-liquid crystals, 61.30.J
Discriminators, electrical, 84.30.Q
Disk galaxies, 98.52.N
Dislocations
-direct observation, 61.72.F
-indirect evidence, 61.72.H
-theory, 61.72.B
-thin films, 68.55.L
Disordered solids
-infrared and Raman spectra, 78.30.L
-localization in, 71.55.J
-photoemission, 79.60.H
-structure, 61.43
-superconductivity, 74.80.B
-vibrational states, 63.50
Dispersion hardening, 81.40.C
Dispersion-reinforced composites, preparation of, 81.20.J
Dispersion relations
-optical, 42.25.B, 78.20.C
-phonons, 63.20.D
-plasma waves, 52.35
-S-matrix theory, 11.55.F
Dispersions
-physical chemistry, 82.70
-rheology, 83.70.H
Display devices
-general instrumentation, 07.07.H
-optical, 42.79.K
-optoelectronic, 85.60.P
Dissociation
-chemical reactions, 82.30.L
-photochemical, 82.50
-molecular
-diffuse spectra, 33.80.G
-by electron impact, 34.80.H
-energy of, 33.15.F
Distorted-wave approximations (nuclear reactions), 24.10.E
Distributed linear networks, 84.20
Distribution theory, 02.50.N
Doi-Edwards theory, 83.20.D, F
Domain structure
-ferroelectric materials, 77.80.D
-magnetic films, 75.70.K
-magnetic materials, 75.60.C
Domain walls
-cosmology, 98.80.C
-extended classical solutions, 11.27
Doping
-germanium and silicon, 61.72.T
-III-V and II-VI semiconductors, 61.72.V
-profiles, 61.72.S
-superconductors, 74.62.D
-thin films, 68.55.L
Dosimetry
-electron and positron, 87.53.F, H
-neutron and proton, 87.53.P, Q
-photon, 87.53.B, D
Double nuclear magnetic resonance (DNMR)
-condensed matter, 76.70.F
-molecules, 33.40
Drell-Yan process, 13.85.Q
Drift waves (plasma), 52.35.K
Dual energy absorptiometry (medical imaging), 87.59.B
Ductility, 62.20.F
Ducts
-flows in, 47.60
Dwarf galaxies, 98.52.W, 98.56.W
-elliptical, 98.52.P
Dwarf novae, 97.30.Q
Dwarf stars, 97.20
Dynamic loading, 83.50

E

E region, ionosphere, 94.20.G
Early Universe, 98.80.C
Earth
-crust movement, vertical, 91.45.P
-interior structure and properties, 91.35
-magnetic field, 91.25
Earth satellites, artificial, 95.40
Earthquakes, 91.30.P
Eclipses, 95.10.G
Ecology, 89.60
ECR plasma heating, 52.50.G
Education, 01.40
Educational aids, 01.50
Effective mass, 71.25.J
Eikonal approximation, 11.80.F
Elastic constants, 62.20.D
Elastic deformation
-materials treatment effects, 81.40.J
-mechanical properties of solids, 62.20.F
Elastic scattering
-of atoms and molecules, 34.50
-deuteron-induced reactions, 25.45.D
-of electrons by atoms and molecules, 34.80.B
-hadron-induced, 13.85.D
-heavy-ion reactions, 25.70.B
-lepton-induced reactions, 25.30.B
-meson-induced reactions, 25.80.D
-nucleon-induced reactions, 25.40.C, D
-of photons and leptons by hadrons, 13.60.F
-triton-, helium-3-, and helium-4-induced reactions, 25.55.C
Elastic waves
-rheology, 83.50.T
-solids, 62.30
Elasticity
-fluid interfaces, 68.10.E
-mathematical theory of, 03.40.D
-rocks and minerals, 91.60.B
-solids, 62.20.D
-superconductors, 74.25.L
Elastomers, structure of, 61.41
Elastooptical effects, 78.20.H
Electrets, 77.22
Electric conductivity
-Earth, 91.25.Q
-materials treatment effects on, 81.40.R
-metals and alloys
-amorphous and liquid, 72.15.C
-crystalline, 72.15.E
-semiconductors and insulators, 72.20
-mixed conductivity, 72.60
-specific, 72.80
-superconductors, 74.25.F
-surfaces, 73.25
-thin films, 73.50
-specific, 73.61
Electric discharges, 52.80
Electric fields
-effects on liquid crystal structure, 61.30.G
-effects on material flows, 83.50.P
-electromagnetism, 41.20
-electrotherapy, 87.54.D
-galactic, 98.62.E
-ionosphere, 94.20.S
-magnetosphere, 94.30.K
-Milky Way, 95.35.E
-planetary, 96.35.P
-solar, 96.60.H
-stellar, 97.10.L
Electric moments
-atoms, 32.10.D
-hadrons, 13.40.E
-molecules, 33.15.K
Electrical components, 07.50, 85.20
Electrical contacts, 85.20.S
Electrical devices (see 85)
Electrical instruments, 07.50
Electrical noise, 07.50.H
Electrical sensors, 07.07.D
Electrical shielding, 07.50.H
Electrocaloric effects, 77.70
Electrochemical devices, 85.80.D
Electrochemical energy conversion and storage, 84.60.D
Electrochemistry, 82.45
-biological membranes, 87.22.F
Electrodeposition, 81.15.P
Electrodynamics
-classical, 03.50.D
-quantum, 12.20
Electrogasdynamic energy conversion, 84.60.R
Electrohydrodynamics, 47.65
Electroluminescence, 78.60.F
Electrolytes, structure of, 61.20.Q
Electromagnetic decay (elementary particles), 13.40.H
Electromagnetic fields, 41.20
Electromagnetic interactions
-electroweak, 12.15
-leptons, 13.10
-unified field theories, 12.10
Electromagnetic mass differences, 13.40.D
Electromagnetic moments, nuclear, 21.10.K
Electromagnetic radiation
-interaction with plasma, 52.40.D, N
-from moving charges, 41.60
-solar, 96.60.T
Electromagnetic technology (see 84)
Electromagnetic waves
-atmospheric optics, 42.68.A
-ionosphere, 94.20.B, R
-magnetosphere, 94.30.T
-meteorology, 92.60.T
-microwaves, 84.40.C
-in plasma, 52.35.H
-radiowaves, 41.20.J, 84.40.C
-theory, 41.20.J
-wave optics, 42.25.B
Electromagnetism (see 41)
Electromechanical resonance, 77.65
Electrometers, 07.50.L
Electromigration, 66.30.Q
Electron affinity
-atoms, 32.10.H
-molecules, 33.15.R
Electron-atom collisions
-elastic scattering, 34.80.B
-excitation and ionization, 34.80.D
Electron attachment, 34.80.H, L
Electron beams
-nonrelativistic, 41.75.F
-polarized (atomic and molecular scattering), 34.80.N
-relativistic, 41.75.H
Electron capture (nuclear physics), 23.40
Electron correlation calculations, 31.25
Electron-cyclotron waves (plasma), 52.35.H, Q
Electron density of states, 71.20
-surfaces and interfaces, 73.20
Electron diffraction
-biophysics and medical physics, 87.64.B
-crystallography, 61.14
Electron diffractometers, 07.78
Electron dosimetry, 87.53.F, H
Electron double resonance (ELDOR)
-condensed matter, 76.70.D
-molecules, 33.40
Electron emission
-Auger, 79.20.F
-secondary, 79.20.H
-surface collisions, 34.50.D
Electron energy-loss spectroscopy, 82.80.P
Electron gas
-collective excitations, 71.45
-quantum statistical mechanics, 05.30.F
Electron-hadron scattering, 13.60
Electron-hole drops, 71.35
Electron-induced nuclear reactions, 25.30
Electron-ion scattering
-excitation and ionization, 34.80.K
-recombination and electron attachment, 34.80.L
Electron microscopes, 07.78
Electron microscopy
-biophysics and medical physics, 87.64.D
-dislocations and other crystal defects, 61.72.F
-structure determination, 61.16.B
Electron-molecule collisions
-dissociation, 34.80.H
-elastic scattering, 34.80.B
-excitation and ionization, 34.80.G
Electron optics, 41.85
Electron paramagnetic resonance (EPR)
-biophysics, 87.64.H
-condensed matter, 76.30
-defect structure determination, 61.72.H
-molecules, 33.35
Electron-phonon interactions
-electronic transport, 72.10.D
-lattice dynamics, 63.20.K
-polarons, 71.38
Electron-positron collisions, hadron production by, 13.65
Electron scattering
-by atoms and molecules, 34.80
-in nuclear reactions
-elastic, 25.30.B
-inelastic, 25.30.D, F
-spin-arrangement determination, 75.25
Electron sources, 07.77.K
-in nuclear physics, 29.25.B
Electron spectrometers, 07.81
Electron spectroscopy
-biophysics and medical physics, 87.64.L
-chemical analysis, 82.80.P
-nuclear and particle physics, 29.30.D
Electron tubes, 85.10
Electronic circuits, 07.50.E, 84.30
-integrated, 85.40
Electronic excitation and ionization
-atoms, 34.50.F
-molecules, 34.50.G
Electronic heat capacity, 65.40.E
Electronic structure
-atoms, molecules, and their ions
-calculations and mathematical techniques, 31.15
-corrections to, 31.30
-interaction effects on, 31.70
-theory of, 31.10
-biomolecules, 87.15.M
-clusters, 36.40.C
-condensed matter (see 71)
-macromolecules and polymer molecules, 36.20.K
-superconductors, 74.25.J
-surfaces, interfaces, and thin films (see 73)
Electronic transport
-bulk matter (see 72)
-interface structures, 73.40
-thin films, 73.61
Electrons, properties of, 14.60.C
Electrooptical effects
-condensed matter, 78.20.J
-molecules, 33.55
Electroosmosis, 82.65.F
Electrophoresis, 82.45
Electrophysiology, 87.22
Electroproduction reactions, nuclear, 25.30.R
Electrorheological fluids, 83.80.G
Electrostatic accelerators, 29.17
Electrostatic lenses, 41.85.N
Electrostatic waves
-magnetosphere, 94.30.T
-plasma, 52.35.F
Electrostatics, 41.20.C
Electrostriction, 77.65
Electrotherapy, 87.54.D
Electroweak interactions
-extensions of gauge sector, 12.60.C
-extensions of Higgs sector, 12.60.F
-models of, 12.15
-tests of electroweak models, 24.80.B
-in unified field theories, 12.10.D
Elemental semiconductors
-conductivity, 72.80.C
-impurity and defect levels, 71.55.A
-thin films
-conductivity, 73.61.C
-optical properties, 78.66.D
-photoemission and photoelectron spectra, 79.60.B
Elemental solids
-dielectric properties, 77.84.B
-structure, 61.66.B
Elementary particles (see 10)
-astronomical observations, 95.85.R
-astrophysics, 95.30.C
Elementary school science education, 01.40.E
Ellipsometers, 07.60.F
Elliptical galaxies, 98.52.E, 98.56.E
Embrittlement, 81.40.N
EMC effect (muon scattering), 25.30.M
Emission spectra
-atoms, 32.30, 32.50
-condensed matter, 78.55, 78.60
-molecules, 33.20, 33.50
-plasma, 52.25
Emissivity, optical, 78.20.D
Emulsions, 82.70.K
-dielectric properties, 77.84.N
-nuclear, 29.40.R
-photographic, 07.68
-rheological properties, 83.70.H
ENDOR
-condensed matter, 76.70.D
-molecules, 33.40
Energy conversion
-electrochemical, 84.60.D
-magnetohydrodynamics, 52.75.F, 84.60.L
-solar cells, 84.60.J
-thermionic, 52.75.F, 84.60.N
-thermoelectric, 84.60.R
Energy extraction from ocean, 92.20.G
Energy losses
-atom and molecule scattering, 34.50.B
-particles in condensed matter, 61.80.M
Energy resources, 89.30
Energy storage, 84.60
Energy transduction (biophysics), 87.22.F
Energy transfer
-chemical reactions, 82.20.R
-intramolecular, 34.30
Ensemble theory
-classical, 05.20.G
-quantum, 05.30.C
Enthalpy (chemical reactions), 82.60.C
Entropy, 05.70, 65.50
Environmental effects on instruments, 07.89
Environmental pollution measurements
-instruments for, 07.88
-meteorology, 92.60.S
Environmental studies, 89.60
Enzymatic catalysis, 87.15.R
Ephemerides, 95.10.K
Epitaxy, 68.55
Epoxy resins, 83.80
Equations of state
-gases, 51.30
-general theory, 05.70.C, 64.10
-specific substances, 64.30
Equilibrium constants, 82.60.H
Erosion (geophysics), 92.40.G
Error theory, 06.20.D
ESCA, 82.80.P
Estuarine oceanography, 92.10.S
Etch pits, 61.72.F
Etching, 81.60
-plasma-assisted, 52.75.R
Euclidean geometries, 02.40.D
Europe, 93.30.G
Evaporation
-black holes, 04.70.D
-field-induced, 79.70
-film deposition, 81.15.E
-fluid surfaces, 68.10.J
-hydrology, 92.40.J
-solid-fluid interfaces, 68.45.D
-water in atmosphere, 92.60.J
EXAFS
-biophysics and medical physics, 87.64.F
-condensed matter, 61.10.L, 78.70.D
Exchange interactions
-energy-level splitting, 71.70.G
-magnetically ordered materials, 75.30.E
Exchange reactions, chemical, 82.30.H
Excimer lasers, 42.55.G
Excited states
-atomic and molecular, 31.50
-electron correlation in, 31.25.J
-Rydberg states
-atoms, 32.80.R
-molecules, 33.80.R
-scattering in, 34.60
Excitons, 71.35
Exoelectron emission, 79.75
Exotic atoms and molecules, 36.10
Exploding wires, 52.80.Q
Explosions
-chemical reactions, 82.40.P
-compressible flows, 47.40
-electric discharges, 52.80.Q
-nuclear, 28.70
-seismology, 91.30.R
Extinction coefficients, optical, 78.20.D
Extranuclear effects, 23.20.N
Extrusion, 83.50.Y
Eye, 42.66

F

F region, ionosphere, 94.20.J
Faculae, 96.60.Q
Faddeev equation, 11.80.J
Familons, 14.80.M
Faraday cups, 41.85.Q
Faraday effect, 78.20.L
Fatigue
-effects of materials treatment, 81.40.N
-mechanical properties of solids, 62.20.M
-structural mechanics, 46.30.N
Femtosecond techniques, 06.60.J
Fermi fluids (see 67)
Fermi surfaces, 71.25.H
Fermion systems, 05.30.F
Ferrimagnetic resonance, 76.50
Ferrimagnetics, 75.50.G
Ferrite devices, 85.70.G
Ferrites, 75.50.G
Ferroelasticity, 62.20.D
Ferroelectric devices, 85.50.L
Ferroelectricity, 77.80
Ferromagnetic materials
-iron and its alloys, 75.50.B
-metals other than iron, 75.50.C
-nonmetals, 75.50.D
Ferromagnetic resonance, 76.50
Fiber gyros, 42.81.P
Fiber lasers, 42.55.W
Fiber-optic instruments, 07.60.V
Fiber optics, 42.81
Field desorption, 79.70
Field effect devices, 85.30.T
-microelectronic, 85.40.V
Field emission, 79.70
Field-ion microscopy, 61.16.F
Field ionization, 79.70
Field theory, 11.10
-classical, 03.50
-in dimensions other than four, 11.10.K
-finite-temperature, 11.10.W
-gauge, 11.15
-models beyond the standard model, 12.60
-quantized fields, 03.70
-unified, 04.50, 12.10
Films
-conductivity, 73.50, 73.61
-deposition methods, 81.15
-dielectric, 77.55
-Langmuir-Blodgett, 68.18
-liquid, 68.15
-magnetic, 75.70
-optical properties, 78.66
-photoemission and photoelectron spectra, 79.60.D
-quantum fluids, 67.70
-superconducting, 74.76
-superfluid helium-4, 67.40.R
-surface reactions, 82.65.F
Films (educational aids), 01.50.F
Filters
-electronic circuits, 84.30.V
-microelectronic, 85.40.W
-optical, 42.79.C
Fine structure
-atoms, 32.10.F
-molecules, 33.15.P
Finite-difference methods
-atomic and molecular physics, 31.15.F
-mathematical methods, 02.70.B
Finite groups, 02.20.D
Fire-hose instability, 52.35.P
First sound (quantum fluids), 67.40.M
Fission-fusion reactions, 25.70.J
Fission reactors
-design and components, 28.41
-types of, 28.52
Flames, 82.40.P
Flare stars, 97.30.N
Flavor symmetries, 11.30.H
Flow computation
-fluid dynamics, 47.11
-rheology, 83.85.P
Fluctuation phenomena
-diamagnetism and paramagnetism, 75.20.H
-magnetically ordered materials, 75.30.M
-nuclear reactions, 24.60.K
-plasma, 52.25.G
-quantum optics, 42.50.L
-statistical physics, 05.40
-superconductors, 74.40
Fluid dynamics (see 47)
Fluid equation (plasma simulation), 52.65.K
Fluid flows
-biorheology, 87.45
-buoyant, 47.32
-compressible, 47.40
-in ducts, channels, and conduits, 47.60
-flow control, 47.62
-free molecular, 47.45.D
-general mathematical aspects, 03.40.G
-hypersonic, 47.40.K
-instruments, 47.80
-laminar, 47.15
-multiphase, 47.55.K
-non-Newtonian, 47.50
-nonequilibrium, 47.70
-nonhomogeneous, 47.55
-nonlinear fluids, 83.10.J
-quantum fluids, 67.40.H
-radiative, 47.70
-reactive, 47.70
-relativistic, 47.75
-rotational, 47.32
-slip, 47.45.G
-stratified, 47.55.H
-subsonic, 47.40.D
-supersonic, 47.40.K
-through porous media, 47.55.M
-transonic, 47.40.H
Fluid-fluid interfaces, 68.10
Fluid surfaces, 68.10
Fluids
-electrorheological and magnetorheological, 83.80.G
-mechanical properties, 47.17
-quantum (see 67)
Fluorescence
-atoms, 32.50
-condensed matter, 78.55
-molecules, 33.50.D
-x-ray, 78.70.E
Fluorescence spectroscopy (biophysics and medical physics),
87.64.N
Fluoroscopy, 87.59.C
Flute instability, 52.35.P
Flux-line lattices, 74.60.G
Flux pinning and creep, 74.60.G
Foams, 82.70.R
-rheology, 83.70.H
Fog
-atmospheric optics, 42.68.G
-meteorology, 92.60.J
Fokker-Planck equation (plasma simulation), 52.65.F
Food, rheology of, 83.80.L
Forces
-interatomic, 34.20.C
-intermolecular, 34.20.G
-measurement of, 07.10.P
-nuclear, 21.30
Form factors
-electromagnetic, 13.40.G
-photon-atom interactions, 32.80.C
Formation heat, 82.60.C
Four-wave mixing, 42.65.H, K
Fourier analysis, 02.30.N
Fourier optics, 42.30.K
Fractals
-fluid dynamics, 47.53
-phase transitions, 64.60.A
-structure of disordered solids, 61.43.H
Fractional quantum Hall effect, 73.40.H
Fracture
-effects of materials treatments, 81.40.N
-mechanical properties of solids, 62.20.M
-rheology, 83.50.T
-rock mechanics, 91.60.B
-structural mechanics, 46.30.N
Fragmentation (nuclear reactions), 25.70.M, P
Franck-Condon factors, 33.70.C
Free-electron lasers, 41.60.C
Free-electron plasma devices, 52.75.M
Free-induction decay (quantum optics), 42.50.M
Free radicals
-chemical reactions, 82.30.C
-EPR of, 76.30.R
Frenkel defects, 61.72.J
Frequency, measurement of, 06.30.F
Frequency conversion (nonlinear optics), 42.65.K
Frequency convertors, optical, 42.79.N
Frequency standards, 06.20.F
-astronomical instrumentation, 95.55.S
Friction
-internal, 62.40
-evidence of dislocations, 61.72.H
-materials treatment effects, 81.40.P
-structural mechanics, 46.30.P
Friction force microscopy, 07.79.S
Fuel
-for fission reactors, 28.41.B
-for fusion reactors, 28.52.C
Fuel cells (energy conversion), 84.60.G
Fullerenes
-structure, 61.46
-superconductivity, 74.70.W
Functional analysis, 02.30
-quantum mechanics, 03.65.D
Functional approximation, algorithms for, 02.60.G
Fundamental constants, 06.20.J
Furnaces, 07.20.H
Fuses, 85.20.W
Fusion
-cold (see "Cold" fusion)
-[supon]2[supoff]H-induced, 25.45
-heavy-ion induced, 25.70.J
-inertial confinement
-heavy-ion, 52.58.H
-laser, 52.58.N
-light-ion, 52.58.E
-magnetic confinement, 52.55
-reactors, 28.52
Fusion-fission reactions, 25.70.J
Fuzzy logic, 07.05.M

G

g-factor, 71.25.J
Galactic center, 98.35.J
Galactic clusters, 98.65
Galactic mass, 98.60.F
Galactic winds, 98.35.N, 98.62.N
Galaxies
-active, 98.54
-local groups, 98.56
-normal, 98.52
-properties, 98.62
Galerkin method, 02.70.D
Galvanomagnetic effects
-metals and alloys, 72.15.G
-semiconductors and insulators, 72.20.M
-thin films, 73.50.J
Game theory, 02.50.L
Gamma-ray lasers, 42.55.V
Gamma-ray spectroscopy
-chemical analysis, 82.80.E
-condensed matter, 76.80
-nuclear physics, 29.30.K
Gamma rays
-astronomical observations, 95.85.P
-biological effects of, 87.50.G
-instruments and techniques, 07.85
-radiation damage by, 61.80.E
-sources (astronomical), 98.70.R
Gamma transitions, 23.20.L
Garnet devices, 85.70.G
Garnets (ferrites), 75.50.G
Gas chromatography, 82.80.B
Gas-discharge tubes, 85.10.R
Gas-filled counters, 29.40.C
Gas lasers, 42.55.J, L
Gas sensors, 07.07.D
Gas-surface interactions, 82.65
Gases
-interplanetary, 96.50.D
-physical properties (see 51)
-rarefied, dynamics of, 47.45
-weakly ionized, electron scattering in, 34.80.M
Gauge bosons, 14.70
Gauge field theories, 11.15
Gauge sector extensions (electroweak interactions), 12.60.C
Gels, 82.70.G
-thermoreversible, 83.70.H
General physics, 01.55
General relativity (see 04)
Generators
-magnetohydrodynamic, 52.75.F
-nuclear reactors, 28.50.M
-pulse, 84.30.N
Geochronology, 91.35.N
Geodesy, 91.10
Geoelectricity, 91.25.Q
Geographical regions, 93.30
Geological materials (rheology), 83.80.L
Geological time, 91.70
Geology, 91.65
Geomagnetic field, 91.25
Geometric inequalities, 02.40.F
Geometrical optics, 42.15
Geometry
-algebraic, 02.10.R
-differential, 02.40.H, M
-Euclidean and projective, 02.40.D
-Riemannian, 02.40.K
Geophysical instrumentation, 93.85
Geophysics (see 91)
Geothermy, 91.35.D
Germanium, doping and ion implantation of, 61.72.T
Gettering effect (in crystals), 61.72.Y
Giant resonances (nuclear reactions), 24.30.C
Ginzburg-Landau theory, 74.20.D
Glaciers, 92.40.V
Glass-based composites, preparation of, 81.20.Q
Glass transitions, 64.70.P
Glasses
-band structure, 71.25.M
-electrical conductivity, 72.80.N
-etching, corrosion, oxidation, 81.60.F
-magnetic, 75.50.K
-optical materials, 42.70.C
-preparation, 81.20.P
-structure, 61.43.F
-thin films
-electrical conductivity, 73.61.J
-optical properties, 78.66.J
Global analysis, 02.40.V
Glow discharge, 52.80.H
Gluons, 14.70.D, 24.85
Gradient-index (GRIN) devices, 42.79.R
-fiber-optical, 42.81.H
Grain boundaries, 61.72.M
Grain sizes (granular materials), 81.35
Grand unified theories, 12.10.D
Granular materials
-aggregation characteristics, 81.35
-preparation, 81.20.E
-rheology, 83.70.F
-superconductivity, 74.80.B
Graph theory, 02.10
Grasers, 42.55.V
Gratings
-holographic, 42.40.E
-in nonlinear optics, 42.65.H
-optical elements, 42.79.D
Gravitation
-astrophysics, 95.30.S
-general theory (see 04)
Gravitational lenses, 95.30.S, 98.62.S
Gravitational waves
-astronomical observations, 95.85.S
-detectors, 04.80.N, 95.55.Y
-theory, 04.30
Gravity
-Earth, 91.10
-experimental test of gravitational theories, 04.80.C
-Moon, 96.20.J
-in more than four dimensions, 04.50
-planets, 96.35.F
-plate tectonics, 91.45.S
-quantum, 04.60
-self-gravitating systems, 04.40
-supergravity, 04.65
Gravity waves
-aeronomy, 94.10.J
-meteorology, 92.60.D
Greenland, 93.30.K
GRIN devices, 42.79.R, 42.81.H
Groundwater, 92.40.K
Group theory
-atomic and molecular physics, 31.15.H
-mathematics, 02.20
-nuclear physics, 21.60.F
-quantum mechanics, 03.65.F
Gunn effect devices, 85.30.F
Gyrofluid and gyrokinetic plasma simulations, 52.65.T
Gyros, fiber-optical, 42.81.P
Gyroscopes, 07.10.Y
Gyrotrons, 42.52, 85.10.J