new 11/94

1995 PACS, ALPHABETIC INDEX, A - C

A

A15 compounds and alloys, 74.70.A
Ab initio calculations (electronic structure)
-atomic and molecular physics, 31.15.A
-condensed matter, 71.10
Abelian groups, 02.20.K
Aberrations, optical, 42.15.F
Ablation
-film deposition, 81.15.F
-impact phenomena, 79.20.D
-laser-produced plasma, 52.50.J
Abrasion
-materials treatment effects, 81.40.P
-mechanics, 46.30.P
Absorption
-neutron, 28.20.F
-optical, 42.25.B
-of photons by nuclei, 25.20.D
-of radiation
-atmospheric, 42.68.A, 94.10.G
-plasma, 52.25
Absorption edges (x-rays), 78.70.D
Absorption spectra
-atoms, 32.30
-biomolecules, 87.15.M
-clusters, 36.40.M
-macro- and polymer molecules, 36.20.K
-molecules, 33.20
-solids, 78.50
Absorption spectroscopy
-biophysics, 87.64.N
-chemical analysis, 82.80.C
-instrumentation, 07.57.T, 07.60.R
Absorptivity, optical, 78.20.D
Abstraction reactions, 82.30.H
Acceleration
-biological effects of, 87.65
-measurement of, 06.30.G
Accelerators
-advanced concepts, 41.75.L
-collective and linear, 29.17
-cyclic, 29.20
-electrostatic, 29.17
-plasma, 52.75.D
-for radiation therapy, 87.56.B
Accidents (nuclear reactors), 28.41.T
Accommodation
-chemisorption, 82.65.M
-gas dynamics, 47.45.N
Accretion and accretion disks
-galactic, 98.62.M
-Milky Way, 98.35.N
-stellar, 97.10.G
Acoustic signal processing, 43.60
Acoustic transduction, 43.38
Acoustical instruments and techniques, 07.64, 43.58
Acoustical properties
-gases, 51.40
-liquids, 62.60
-rocks and minerals, 91.60.L
-solid-fluid interfaces, 68.45.N
-solid surfaces and interfaces, 68.35.G
-solids, 62.65
-superconductors, 74.25.L
-thin films, 68.60.B
Acoustics
-architectural, 43.55
-atmospheric, 43.28
-biological, 43.50
-linear, 43.20
-nonlinear, 43.25
-physiological, 43.64
-psychological, 43.66
-structural, 43.40
-underwater, 43.30
Acousto-electric effects
-conductivity phenomena, 72.50
-piezoelectrics, 77.65.D
-thin films, 73.50.R
Acousto-optical devices, 42.79.J
Acousto-optical effects, 78.20.H
Activation analysis, radiochemical, 82.80.J
Adaptation, visual
-color, 42.66.N
-light, 42.66.L
Adaptive optical systems
-astronomy, 95.75.Q
-atmospheric optics, 42.68.W
Adhesion
-material flows, 83.50.L
-solid surfaces and interfaces, 68.35.W
-structural mechanics, 46.30.P
Adsorbates
-electron states, 73.20.H
-photoelectron spectra, 79.60.D
Adsorption
-chemisorption, 82.65.M
-fluid surfaces, 68.10.J
-quantum fluids, 67.70
-solid-fluid interfaces, 68.45.D
Aeroacoustics, 43.28
Aeroelasticity, 46.30.M
Aeronomy (see 94)
Aerosols
-atmospheric optics, 42.68.J
-meteorology, 92.60.M
-physical chemistry, 82.70.R
Aerospace biophysics and medical physics, 87.65
Africa, 93.30.B
Afterglow, plasma reactions, 82.40.R
Aggregation
-diffusion-limited, 61.43.H
-granular materials, 81.35
Aharonov-Bohm effect, 03.65.B
Air pollution
-atmospheric optics, 42.68.K
-meteorology, 92.60.S
Airglow, 94.10.R
Algebraic geometry, 02.10.R
Algebraic groups, classical linear, 02.20.H
Algebraic methods
-in quantum mechanics, 03.65.F
-in string theory, 11.25.H
Algebraic topology, 02.40.R
Algebras, 02.10
-Lie, 02.20.S
Alkali halides, photoluminescence of, 78.55.F
Alloys
-diamagnetism and paramagnetism, 75.20.E
-electronic conduction
-bulk matter, 72.15.C, E
-liquid, 72.15.C
-thin films, 73.61.A
-electronic structure, 71.20.C
-etching, corrosion, and oxidation, 81.60.B
-impurity and defect absorption, 78.50.J
-impurity and defect levels, 71.55.A
-infrared and Raman spectra, 78.30.E
-local magnetic moment, 75.20.H
-magnetic, 75.50
-optical properties of thin films, 78.66.B
-phase diagrams, 81.30.B
-preparation, 81.20.G
-self-diffusion, 66.30.F
-structure
-amorphous, 61.43.D
-crystalline, 61.66.D
-liquid, 61.25.M
-superconducting, 74.70
-visible and ultraviolet spectra, 78.40.K
Alpha Cygni stars, 97.30.D
Alpha decay, 23.60
Alpha-particle-induced nuclear reactions, 25.55
Amorphous magnetic materials, 75.50.K
Amorphous metals and alloys
-electrical and thermal conductivity, 72.15.C
-electron density of states, 71.25.M
-photoelectron spectra, 79.60.H
-structure of, 61.43.D
Amorphous semiconductor switches, 85.30.F
Amorphous semiconductors
-electrical conductivity, 72.80.N
-impurity and defect levels, 71.55.J
-infrared and Raman spectra, 78.30.L
-photoelectron spectra, 79.60.H
-structure, 61.43.D
-thin films
-electrical conductivity, 73.61.J
-optical properties, 78.66.J
Amorphous superconductors, 74.80.B
Amplifiers
-electronic, 84.30.L
-laser, 42.60.D
-microelectronic, 85.40.W
Analytic spaces, 02.30.F
Anelasticity
-materials treatment effects on, 81.40.J
-mechanical properties of solids, 62.40
Angiography, 87.59.D
Anharmonic lattice modes, 63.20.R
Annealing
-crystal defects, 61.72.C
-effects on microstructure and properties, 81.40.E
-integrated circuits fabrication, 85.40.H
-magnetic, 75.60.N
Announcements, 01.10.C
Antarctica, 93.30.C
Antennas
-accessories and components, 84.40.H
-plasma interactions with, 52.40.F
-theory of, 84.40.G
Antibunched photon states, 42.50.D
Antiferroelectricity, 77.80
Antiferromagnetic resonance, 76.50
Antiferromagnetics, 75.50.E
Antiproton-induced reactions, 25.43
Anyons, 74.20.K
Apertures, optical, 42.79.A
Arc discharges, 52.80.M
Arc welding, 52.75.R
Archaeoastronomy, 95.90
Architectural acoustics, 43.55
Arctic Ocean, 93.30.L
Arrays
-fiber optical, 42.81.Q
-integrated optics, 42.82.E
-laser, 42.60.D
-solar cells, 84.60.J
Artificial intelligence, 07.05.M
Asia, 93.30.D
Associated liquids, structure of, 61.20.Q
Association reactions, chemical, 82.30.N
Associative rings and algebras, 02.10.T
Asteroids, 96.30.Y
Astrometric binary stars, 97.80.A
Astrometry, 95.10.J
-instrumentation, 95.55.B
Astron (magnetic trap), 52.55.L
Astronomy
-databases, 95.80
-fundamental, 95.10
-historical, 95.90
Astrophysics, fundamentals, 95.30
Asymptotic structure, 04.20.H
Atlantic Ocean, 93.30.M
Atmosphere
-Earth
-ionosphere, 94.20
-magnetosphere, 94.30
-neutral, 94.10
-troposphere, 92.60
-Moon, 96.20.D
-planetary, 96.35.H, K
-stellar, 97.10.E
Atmospheric chemistry, 82.40.W
-meteorology, 92.60.H
-neutral atmosphere, 94.10.F
Atmospheric optics, 42.68
Atmospheric pressure, 94.10.D
Atmospheric sound, 43.28
Atom interferometry, 03.75.D, 39.20
Atom-molecule potentials and forces, 34.20.G
Atom optics, 03.75.B
Atomic and molecular data, astrophysics, 95.30.K
Atomic beam epitaxy, 68.55.B
Atomic beams
-chemical reactions, 34.50.L, 82.40.D
-damage by (condensed matter), 61.80.L
-detectors for, 07.77
-interactions with solids, 79.20.N, R
-sources of, 07.77.G, 39.10
-in structural analysis, 61.16.F
Atomic clusters, 36.40
Atomic collisions (see 34)
Atomic ensemble, phase coherence of, 03.75.F, 42.50.G
Atomic force microscopy
-biophysics, 87.64.D
-condensed matter, 61.16.C
-instruments, 07.79.L
Atomic isotopes, 32.10.B
Atomic mass, 32.10.B
Atomic physics (see 30)
Atomic properties, 32.10
Atomic spectra, 32.30
-astrophysics, 95.30.K
Atoms
-collisions in plasma, 52.20.H
-electric and magnetic moments, 32.10.D
-electron affinity, 32.10.H
-electronic structure
-calculations of, 31.15
-theory of, 31.10
-excitation and ionization by electron impact, 34.80.D
-exotic, 36.10
-hot atom reactions, 82.55
-ionization potential, 32.10.H
-polarizability, 32.10.D
-scattering, 34.50
Audio and visual aids, educational, 01.50.F
Auditory system, 43.64
Auger effect
-atoms, 32.80.H
-solids, 79.20.F
Auger spectroscopy, 82.80.P
Augmented plane wave (APW) calculations, 71.10
Aurora, 94.10.R
Australia, 93.30.F
Autoionization
-atoms, 32.80.D
-molecules, 33.80.E
Avalanche counters, 29.40.C
Awards, 01.10.C
Axions, 14.80.M

B

Background radiations (galactic and extragalactic), 98.70.V
Bag models, 12.39.B
Balance systems, 07.10.L
Balances, 06.30.D
Ballooning instability, 52.35.P
Band structure
-elemental semiconductors, 71.25.R
-metals, 71.25.P
-semiconductor compounds and insulators, 71.25.T
-surfaces and interfaces, 73.20.A
-techniques of calculation, 71.25.C
Barkhausen effect, 75.60.E
Barred spirals (galaxies), 98.52.N
Baryon number, 11.30.F
Baryon resonances, 14.20.G
Baryons
-decays, 13.30.E
-production, 13.60.R
-properties, 14.20
Bathymetry, 91.50.G
Batteries, 84.60.H
BCS theory, 74.20.F
Beach processes (marine geology), 91.50.C
Beam characteristics
-accelerators, 29.27.F
-lasers, 42.60.J
-low energy beams, 41.85.E
Beam-foil excitation and ionization, 34.50.F
Beam injection
-accelerators, 29.27.A
-low energy beams, 41.85.A
-plasma heating, 52.50.G
Beam optics (low energy charged-particle beams), 41.85
Beam-plasma instability, 52.35.Q
Beam splitters and deflectors
-low energy beams, 41.85.C
-optical, 42.79.F
Beam trapping (nonlinear optics), 42.65.J
Beams, charged-particle
-in accelerators, 29.27
-electron, 41.75.F, H
-interactions with plasma, 52.40.M
-ion, 41.75.A, C
-positron, 41.75.F, H
-relativistic electron and positron, 41.75.H
Beams, photon
-laser, 42.60
-x-ray, 41.50
Bearings, 06.60.V
Bell inequalities, 03.65.B
Bernstein waves, 52.35.H
Berry's phase, 03.65.B
Beta Cephei stars, 97.30.D
Beta decay, 23.40
Betatrons, 29.20.F
Bethe-Salpeter equations, 11.10.S
BGK modes (in plasma), 52.35.S
Bibliographies, 01.30.T
Bifurcation
-chemical kinetics, 82.40.B
-hydrodynamic stability, 47.20.K
Big bang theory, 98.80.B
Binary stars, 97.80
Binding energy
-molecular core, 33.15.R
-nuclear, 21.10.D
-solids, 71.45.N
Bingham fluids, 83.50.N
Binocular vision, 42.66.S
Bioacoustics, 43.80
-biological effects of sound, 87.51
Biochemistry, 87.15.R
Biographical notes, 01.60
Biological effects of radiation, 87.50
Biological materials
-fluid dynamics, 87.45
-rheology of, 83.80.L
Bioluminescence, 87.15.M
Biomagnetism, 87.40
Biomedical engineering
-medical imaging equipment, 87.62
-radiation therapy equipment, 87.56
Biomolecules, structure of, 87.15
Biophysics
-cellular, 87.22
-instrumentation, 87.80
-molecular, 87.15
-spectroscopic and microscopic techniques, 87.64
-theoretical, mathematical, 87.10
Biorheology, 83.80.L, 87.45
Biosonic generation
-biophysics, 87.22.N
Biothermics, 87.22.P
Bipolar outflows
-external galaxies, 98.58.F
-Milky Way, 98.38.F
-pre-main-sequence objects, 97.21
Bipolar transistors, 85.30.P
-microelectronic, 85.40.T
Birefringence
-bulk materials, 78.20.F
-optical fibers, 42.81.G
-wave optics, 42.25.L
Bismuth-based high-T[subon]c[suboff] superconductors, 74.72.H
Bistability, optical, 42.65.P
Black holes
-astrophysics, 97.60.L
-external galaxies, 98.62.J
-Milky Way, 98.35.J
-physics of, 04.70
Blazars, 98.54.C
Blood, rheology of, 83.80.L, 87.45
Blue stars, 97.20.R
Body fluids, 87.45
Body movements, physics of, 87.45.D
Bok globules, 97.21
Bolometers, 07.57.K
Bone densitometry, 87.59.L
Books, 01.30
Bootstraps, 11.55.B, F
Borides, dielectric materials, 77.84.B
Born-Oppenheimer approximation, 31.30
Bose condensation, 03.75.F
Boson degeneracy (helium-4), 67.40
Boson systems, 05.30.J
Bosons
-gauge, 14.70
-Higgs, 14.80.B, C
-intermediate, decays of, 13.38
-Nambu-Goldstone, 14.80.M
Bottom baryons, 14.20.M
Bottom mesons
-hadronic decays, 13.25.H
-leptonic decays, 13.20.H
-properties, 14.40.N
Bound states
-field theory, 11.10.S
-quantum mechanics, 03.65.G
Boundary layers
-laminar, 47.15.C
-meteorology, 92.60.F
-plasma, 52.40.H
-sea-air, 92.10.K
-turbulence, 47.27.N
Boundary-value problems
-in electrostatics, 41.20.C
-in magnetostatics, 41.20.G
-in mathematics, 02.60.L
Brachytherapy, 87.53.J
Breakdown, electrical
-dielectrics, 77.22.J
-gases, 51.50
Breeder reactors, 28.50.F
Brillouin scattering
-condensed matter, 78.35
-nonlinear optics, 42.65.E
-plasma, 52.35.N
Brittleness, 62.20.M
Brownian motion, 05.40
Bubble chambers, 29.40
Bubbles
-magnetic, 75.70.K
-nonhomogeneous flows, 47.55.D
Buckling
-materials treatment effects, 81.40.L
-static, 46.30.L
Buckyballs (see Fullerenes)
Buoyancy-driven instability, 47.20.B
Bursts
-galactic, 98.62.N
-solar, 96.60.R

C

C15 superconductors, 74.70.A
Calculus
-operational, 02.30.Q
-of variations and optimal control, 02.30.W
Calendars, astronomical, 95.10.K
Calorimeters, 07.20.F
-nuclear and particle physics, 29.40.V
Capacitor banks (energy storage), 84.60.T
Capacitors, 85.50.N
Carbides, dielectric materials, 77.84.B
Carbon dioxide lasers, 42.55.L
Carbon stars, 97.30.H
Cardiomagnetism, 87.40
CARS, 42.65.D
Cartography, 91.10.D
Catalysis
-enzymatic, 87.15.R
-at fluid surfaces, 68.10.J
-heterogeneous, 82.65.J
-homogeneous, 82.30.V
Category theory, 02.10.W
Cathode-ray tubes, 85.10.M
Cathodoluminescence, 78.60.H
Causal structure, 04.20.G
Cavitation
-nonhomogeneous flows, 47.55.B
Celestial mechanics, 95.10.C
Cell complexes (geometry and topology), 02.40.S
Cellular biophysics
-magnetic field effects, 87.40
-membrane transport, 87.22.F
Cenozoic period, 91.70.B
Centrifuges, 07.10.Y
Cepheids, 97.30.G
Ceramics
-etching, corrosion, and oxidation, 81.60.D
-piezoelectricity, 77.84.D
-preparation, 81.20.L
Cermets, preparation of, 81.20.N
Chain reactions, chemistry, 82.30.C
Chains, macromolecular and polymer, 36.20.F
Chalcogenides
-conductivity, 73.61.G
-dielectric materials, 77.84.B
-impurity and defect levels, 71.55.G
-photoluminescence, 78.55.E
-superconductivity, 74.70.A
Channeling (in crystals), 61.80.M
Chaos
-astronomy, 95.10.E
-chemical reactions, 82.40.B
-fluid dynamics, 47.52
-nuclear reactions, 24.60.L
-optical, 42.50.N
-rheology, 83.50.W
-superconductivity fluctuations, 74.40
-theory and models, 05.45
Charge carriers, generation and recombination of
-semiconductors and insulators, 72.20.J
-surfaces, 73.25
-thin films, 73.50.G
Charge-coupled devices
-in astronomical instrumentation, 95.55.A
-microelectronic, 85.40.V
Charge-density waves
-collective excitations, 71.45.L
-one-dimensional conductors, 72.15.N
-surface and interface excitations, 73.20.M
Charge distribution (nuclear), 21.10.F
Charge exchange reactions
-chemistry, 82.30.F
-nuclear physics
-[supon]3[supoff]H-, [supon]3[supoff]He-, and
[supon]4[supoff]He-induced, 25.55.K
-[supon]2[supoff]H-induced, 25.45.K
-low and intermediate energy heavy-ion collisions, 27.70.K
-nucleon induced, 25.40.K
-pion, 25.80.G
Charge transfer
-atomic and molecular collisions, 34.70
-chemical reactions, 82.30.F
Charge-transfer complexes (biomolecules), 87.15
Charged clusters, 36.40.W
Charged-lepton interactions with hadrons, 13.60
Charged-particle beams
-in accelerators, 29.27
-beam optics, 41.75, 41.85
-sources and detectors, 07.77.K
Charged-particle-induced fission, 25.85.G
Charged-particle spectrometers, 29.27.A
Charged-particle spectroscopy, 29.30.E
Charmed baryons, 14.20.L
Charmed mesons
-hadronic decays, 13.25.F
-leptonic and semileptonic decays, 13.20.F
-properties, 14.40.L
Chemical analysis, 82.80
-in biophysics, 87.64
Chemical bonds
-biomolecules, 87.15.B
-crystals, 61.50.L
-macro- and polymer molecules, 36.20.H
Chemical composition
-Earth's atmosphere, 92.60.H, 94.10.F
-Earth's interior, 91.35.L
-galaxies, 98.62.B
-planets, 96.35.E
-solid surfaces and solid-solid interfaces, 68.35.D
-stars, 97.10.T
-Sun, 96.60.F
-superconductors, 74.62.B
-thin films, 68.55.N
Chemical equilibria, 82.60.H
Chemical interdiffusion, 66.30.N
Chemical kinetics, 82.20, 82.40
Chemical lasers, 42.55.K, 82.40.T
-kinetics, 82.80.T
Chemical physics (see 82)
Chemical reactions, 82.30, 82.40
-clusters, 36.40.J
Chemical sensors, 07.07.D
Chemical shift (NMR), 76.60.C
Chemical thermodynamics, 82.60
Chemical vapor deposition, 52.75.R, 81.15.G
Chemically reactive flows, 47.70.F
Chemically reactive materials (rheology), 83.50.J
Chemiluminescence, 78.60.P
-chemical reactions, 82.40.T
Chemisorption
-solid-fluid interfaces, 68.45
-surface and interface chemistry, 82.65.M
Cherenkov detectors, 29.40.K
Cherenkov radiation, 41.60.B
Chevrel phases, superconductivity of, 74.70.A
Chiral Lagrangians, 12.39.F
Chiral symmetries, 11.30.R
Chromatography, 82.80.B
Chromodynamics, quantum, 12.38
Chromosphere, solar, 96.60.N
Circuit theory, 84.20
Circuits
-electronic, 07.50.E, 84.30
-integrated, 85.40
Circulation
-atmospheric, 92.60.B
-oceanography, 92.10.M
Circumstellar envelopes, 97.10.F
Cladding, optical fibers, 42.81.B
Classical mechanics
-continuous media, 03.40
-discrete systems, 03.20
Climatology, 92.60.R
Clocks, 06.30.F, 95.55.S
Clouds
-atmospheric optics, 42.68.G
-meteorology, 92.60.N
Cluster models (nuclear physics), 21.60.G
Clusters
-atomic and molecular, 36.40
-formation in chemical reactions, 82.30.N
-galaxies, 98.65
-solid, 61.46
-stellar, 98.20
Coastal oceanography, 92.10.S
Coastal processes, 91.50.C
Coatings
-deposition methods, 81.15
-dielectric devices, 85.50.G
-optical, 42.79.B
Coercivity (magnetic materials), 75.60.G
Coherence, in electron scattering, 34.80.P
Coherence, optical
-quantum optics, 42.50.A
-wave optics, 42.25.K
Coherent anti-Stokes Raman scattering (CARS)
-nonlinear optics, 42.65.D
Coherent radiation, plasma devices for generation of, 52.75.V
Cohesion, material flows, 83.50.L
Coils, induction, 85.20.G
"Cold" fusion (classified under deuteron-induced reactions, 25.45
and electrochemistry, 82.45)
Cold working, 81.40.E
Collagen (rheology), 83.80.L
Collective excitations
-bulk matter, 71.45
-clusters, 36.40.G
-nuclear structure, 21.10.R
-one-dimensional conductors, 72.15.N
-superfluid helium-3, 67.57.J
-surfaces and interfaces, 73.20.M
Collective models (nuclear structure), 21.60.E
Collimators, optical, 42.79.A
Collisions
-atomic and molecular (see 34)
-galaxies, 98.65.A
-in plasma, 52.20.H, F
Colloids, 82.70.D, 83.70.H
Color centers
-absorption spectra, 78.50
-crystal defects, 61.72.J
-electron states, 71.55
-EPR, 76.30.M
Color transparency (QCD in nuclei), 24.85
Color vision, 42.66.N
Colorimeters, 07.60.D
Colorimetry, 82.80.C
Combinatorics, 02.10.E
Combustion
-enthalpy, 82.60.C
-reaction kinetics, 82.40.P
Cometary nebulae, 97.21
Comets
-interaction with solar wind, 96.50.E
-in interplanetary space, 96.50.G
Commensurate-incommensurate transformations, 64.70.R
Commutative rings and algebras, 02.10.P
Compactification (string theory), 11.25.M
Compaction (materials preparation), 81.20.E
Complex variables, 02.30.F, D
Composite materials
-dielectric, piezoelectric, and ferroelectric, 77.84.L
-etching, corrosion, oxidation, 81.60.H
-optical properties of thin films, 78.66.F
-preparation, 81.20
-rheology of, 83.70.D
-superconductivity, 74.72.L
Compressibility, of gases, 51.35
Compressible flows, 47.40
Compression molding, 83.50.D
Compressional waves
-aeronomy, 94.10.J
-meteorology, 92.60.D
Compton scattering
-atoms, 32.80.C
-bulk matter, 78.70
-by hadrons, 13.60.F
Computational techniques, mathematical, 02.70
Computed tomography, 87.59.F
Computer hardware, 07.05.B
Computer interfaces, 07.05.W
-nuclear physics, 29.50
Computer languages, 07.05.B
Computer modeling and simulation, 07.05.T
-astronomy, 95.75.P
-chemical kinetics, 82.20.W
-disordered solids, 61.43.B
-integrated circuits fabrication, 85.40.J
-liquid structure, 61.20.J
-magnetic critical points, 75.40.M
-plasma, 52.65
-rheology, 83.20.J
Computer science and technology, 89.80
Computer vision, 42.30.T
Computers
-as educational aids, 01.50.H
-in experimental physics, 07.05
-optical, 42.79.T
Condensation
-fluid-fluid interfaces, 68.10.J
-liquid-vapor transitions, 64.70.F
-nucleation, 64.60.Q
-chemical thermodynamics, 82.60.N
-solid-fluid interfaces, 68.45.D
Condensed matter (see 60)
Conductors, electrical, 85.20.C
Conduits, flow through, 47.60
Conferences
-announcements, 01.10.F
-proceedings, 01.30.C
Configuration interaction calculations, 31.25
Conformal field theory, 11.25.H
Conformation, molecular, 33.15.B
-barrier heights, 33.15.H
-biomolecules, 87.15.B, H
-macromolecules and polymers, 36.20.E
Conservation laws
-electromagnetism, 41.20.B
-fields and particles, 11.30
Constants, fundamental, 06.20.J
Constitutive relations (rheology), 83.20
Contact resistance and potential, 73.40.C
Contacts
-electrical, 85.20.S
-II-VI semiconductor-to-semiconductor, 73.40.L
-III-V semiconductor-to-semiconductor, 73.40.K
-integrated electronics, 85.40.L
-mechanical, 46.30.P
-metal-nonmetal, 73.40.N
-metal-to-metal, 73.40.J
-semiconductor-electrolyte, 73.40.M
-superconducting, 74.80.F
Continents, 93.30
-drift of, 91.45.D
Continuous media, dynamics of (rheology), 83.10.D
Continuum mechanics, 83.10.F
Control devices, 07.07.T
Convection
-aeronomy, 94.10.L
-heat transfer, 44.25
-ionosphere, 94.20.W
-magnetosphere, 94.30.F
-meteorology, 92.60.E
-turbulent flows, 47.27.T
Convection currents (plate tectonics), 91.45.F
Convex sets, 02.40.F
Copolymers, rheology of, 83.70.H
Corona
-solar, 96.60.P
-stellar, 97.10.E
Corona discharges, 52.80.H
Correlation
-in electron scattering, 34.80.P
-in nuclear electromagnetic transitions, 23.20.E
Correlation functions (collective effects), 71.45.G
Corrosion, 81.60
Cosmic censorship, 04.20.D
Cosmic dust
-in Earth's atmosphere, 94.10.N
-external galaxies, 98.58.C
-Milky Way, 98.38.C
Cosmic rays, 96.40
-astronomical observations, 95.85.R
-high-energy interactions, 13.85.T
-sources, galactic and extragalactic, 98.70.S
Cosmic strings, 11.27, 98.80.C
Cosmogony, 96.10
Cosmology, 98.80
Couette flow, 47.15, 83.50
Coulomb energies (nuclear levels), 21.10.S
Coulomb excitation (heavy-ion collisions), 25.70.D
Coupled-channel methods (nuclear reactions), 24.10.E
Coupled cluster theory, 31.15.D
Cracks
-healing, 83.50.T
-mechanical properties of solids, 62.20.M
-structural mechanics, 46.30.N
Cratering (Moon), 96.20.K
Creep, 83.50.B
-effects of materials treatment, 81.40.L
-evidence of dislocations, 61.72.H
-mechanical properties of solids, 62.20.H
Creeping flows, 47.15.G
Critical currents (superconductivity), 74.60.J
Critical exponents, 64.60.F
-magnetism, 75.40.C
Critical fields (superconductivity), 74.60.E
Critical phenomena (see 64)
-magnetism, 75.40
-at surfaces and interfaces, 68.35.R
-thermodynamics, 05.70.J
Cross sections
-chemical reactions, 82.20.P
-electron scattering
-atoms and molecules, 34.80
-conductivity, 72.10
-hadrons
-high-energy interactions, 13.85.L
-with photons and charged leptons, 13.60.H
-photon-atom interactions, 32.80.C
-scattering of atoms and molecules, 34.50
Cryogenics
-instrumentation, 07.20.M
-therapy, 87.54.B
Crystal binding, 61.50.L
Crystal defects, 61.72
Crystal fields
-level splitting, 71.70.C
-in magnetic ordering, 75.10.D
Crystal growth
-methods of, 81.10
-physics of, 61.50.C
Crystal symmetry, 61.50.E
Crystallization
-amorphous materials, 61.43
-phase transitions, 64.70.D
-physics of, 61.50.C
Crystallography (see 61)
Crystals
-impurities, 61.72.S
-liquid, structure of, 61.30
-microstructure, 61.72
-materials treatment effects on, 81.40
-phase transitions, 64.80.G
-morphology and orientation, 61.50.J
-phase diagrams, 81.30
-purification, 81.10
-quantum, 67.80
-structure
-alloys, 61.66.D
-elemental solids, 61.66.B
-inorganic compounds, 61.66.F
-organic compounds, 61.66.H
-superconductors, 74.62.B
-surfaces, 68.35.B
Cuprates (superconductors), 74.72, 74.76
Curie point (ferroelectricity), 77.80.B
Current drive plasma heating, 52.50.G
Currents
-critical (superconductivity), 74.60.J
-marine geology, 91.50.J
-theory of fields and particles, 11.40
Curriculum (physics education), 01.40.G
Curve fitting, 02.60.E
Cyclotron resonance
-condensed matter, 76.40
-Fermi surface parameters, 71.25.H
Cyclotrons, 29.20.H