colors; luminosities # magnitudes and
98.62.Qz
colossal magnetoresistance
75.30.Vn
combined shear and extension # extensional flow and
83.50.Jf
combustion synthesis # chemical synthesis;
81.20.Ka
combustion, and explosions # reactions in flames,
82.33.Vx
combustion, reaction, and formation # enthalpies of
82.60.Cx
cometary nebulae, etc.) # pre-main sequence objects, young stellar objects (YSO's) and protostars (T Tauri stars, Orion population, Herbig-Haro objects, Bok globules, bipolar outflows,
97.21.+a
cometary, and satellite characteristics and properties # planetary, asteroid,
96.35.-j
comets
96.50.Gn
comets # solar wind interactions with planets, satellites, and
96.50.Ek
commensurate-incommensurate transitions
64.70.Rh
common to several branches of physics and astronomy # instruments, apparatus, and components
07.
common to several branches of physics and astronomy # measurements
06.30.-k
common to several branches of physics and astronomy # other topics in instruments, apparatus, and components
07.90.+c
communication # quantum
03.67.Hk
communication forms and techniques (written, oral, electronic, etc.)
01.20.+x
communication satellites # telecommunications: signal transmission and processing;
84.40.Ua
communication systems # speech processing and
43.72.+q
communication systems, multiplexers, and demultiplexers # optical
42.79.Sz
communication using chaos
05.45.Vx
communication, education, history, and philosophy
01.
compact galaxy groups # small and
98.65.Bv
compactification and four-dimensional models
11.25.Mj
compaction # static sandpiles; granular
45.70.Cc
compaction, sintering, mechanical alloying, and granulation # powder processing: powder metallurgy,
81.20.Ev
companions; planets # substellar
97.82.Fs
comparators, mixers, limiters, and compressors # modulators and demodulators; discriminators,
84.30.Qi
comparisons # interplanetary
96.35.Se
compensators # beam intensity modification: wedges,
87.53.Mr
compilations # handbooks, dictionaries, tables, and data
01.30.Kj
complex analysis metthods # perturbation and
46.15.Ff
complex biological systems # reactions in
82.39.Rt
complex chemical systems
82.40.Qt
complex dielectric constant, absorption, reflection and transmission coefficients, emissivity) # optical constants (including refractive index,
78.20.Ci
complex fluids # disperse systems;
82.70.-y
complex manifolds
02.40.Tt
complex plasmas; plasma crystals # dusty or
52.27.Lw
complex solids # molecular sieves, zeolites, clathrates, and other
82.75.-z
complex systems
89.75.-k
complex systems # structures and organization in
89.75.Fb
complex systems; traffic flow # granular models of
45.70.Vn
complex variables and analytic spaces # several
02.30.Fn
complexes # manifolds and cell
02.40.Sf
complexity, and optical spatio-temporal dynamics # dynamics of nonlinear optical systems; optical instabilities, optical chaos and
42.65.Sf
components # circuits and circuit
07.50.Ek
components # electrical and electronic instruments and
07.50.-e
components # magnetic instruments and
07.55.-w
components # passive circuit
84.32.-y
components # scanning probe microscopes and
07.79.-v
components (e.g., 1/Nc expansions) # expansions for large numbers of
11.15.Pg
components (satellites, space vehicles, etc.) # spaceborne and space research instruments, apparatus, and
07.87.+v
components and accessories # antennas: theory,
84.40.Ba
components and instrumentation
28.52.Lf
components common to several branches of physics and astronomy # instruments, apparatus, and
07.
components common to several branches of physics and astronomy # other topics in instruments, apparatus, and
07.90.+c
composite fermions, Luttinger liquid, etc.) # fermions in reduced dimensions (anyons,
71.10.Pm
composite materials
72.80.Tm
composite materials
77.84.Lf
composite materials
78.66.Sq
composite models
12.60.Rc
composites # cermets, ceramic and refractory
81.05.Mh
composites # dispersion-reinforced, fiber-reinforced, and platelet-reinforced metal-based
81.05.Ni
composites # reinforced polymers and polymer-based
81.05.Qk
composites, glasses, semicrystalline polymers # solids: e.g.,
83.80.Ab
composites, vitroceramics # glass-based
81.05.Pj
composition # abundances, chemical
97.10.Tk
composition # chemical
96.35.Er
composition # chemical
96.60.Fs
composition # major element
91.65.Vj
composition (atomic or molecular), chemical reactions and processes # atmospheric
94.10.Fa
composition analysis, chemical depth and dopant profiling # chemical
81.70.Jb
composition and chemical evolution # chemical
98.35.Bd
composition and chemical evolution # chemical
98.62.Bj
composition and chemical interactions # chemical
92.60.Hp
composition and phase identification
68.55.Nq
composition of Earth's interior
91.35.Lj
composition, energy spectra, and interactions
96.40.De
composition, segregation; defects and impurities
68.35.Dv
composition/chemistry # isotopic
91.65.Dt
compound nucleus
25.70.Gh
compound-nucleus reactions # statistical
24.60.Dr
compounds # fullerenes and related materials; intercalation
71.20.Tx
compounds # inorganic
61.66.Fn
compounds # intermetallic
71.20.Lp
compounds # organic
61.66.Hq
compounds # other inorganic
71.20.Ps
compounds # polymers and organic
71.20.Rv
compounds # polymers, organic
61.82.Pv
compounds # polymers; organic
77.84.Jd
compounds # polymers; organic
78.66.Qn
compounds # polymers; organic
79.60.Fr
compounds # semiconductor
71.20.Nr
compounds # transition-metal
72.80.Ga
compounds (including organic semiconductors) # polymers; organic
72.80.Le
compounds and alloys; Kondo effect, valence fluctuations, heavy fermions # local moment in
75.20.Hr
compounds and polymers # organic
78.40.Me
compounds, polymers # organic
78.30.Jw
compressed fusion fuels # fast ignition of
52.57.Kk
compressibility # mechanical properties;
51.35.+a
compressible flows; shock and detonation phenomena
47.40.-x
compression # plasma production and heating by shock waves and
52.50.Lp
compression # ultrafast processes; optical pulse generation and pulse
42.65.Re
compressional waves # gravity waves, tides, and
92.60.Dj
compressors # modulators and demodulators; discriminators, comparators, mixers, limiters, and
84.30.Qi
Compton scattering # atomic scattering, cross sections, and form factors;
32.80.Cy
Compton scattering # elastic and
13.60.Fz
computation # quantum
03.67.Lx
computation of relaxation and retardation spectra; time-temperature superposition, etc.) # data analysis (interconversion of data
83.85.Ns
computational fluid dynamics
83.85.Pt
computational methodology (Brillouin zone sampling, iterative diagonalization, pseudopotential construction)
71.15.Dx
computational methods in classical mechanics
45.10.-b
computational methods in continuum mechanics (see also 02.70.-c computational techniques in mathematical methods in physics)
46.15.-x
computational methods in fluid dynamics
47.11.+j
computational methods in statistical physics and nonlinear dynamics
05.10.-a
computational modeling; simulation
82.20.Wt
computational techniques
02.70.-c
computational techniques in mathematical methods in physics) # computational methods in continuum mechanics (see also 02.70.-c
46.15.-x
computed tomography (CT)
87.59.Fm
computed tomography (SPECT) # single photon emission
87.58.Ce
computer data analysis
29.85.+c
computer interfaces
07.05.Wr
computer interfaces
29.50.+v
computer languages, and utilities # computer systems: hardware, operating systems,
07.05.Bx
computer modeling and simulation
07.05.Tp
computer modeling and simulation # observation and data reduction techniques;
95.75.-z
computer science and technology
89.20.Ff
computer simulation
87.18.Bb
computer simulation
87.64.Aa
computer simulation # structural modeling: serial-addition models,
61.43.Bn
computer simulation # theory and modeling;
87.15.Aa
computer simulation # theory and modeling;
87.16.Ac
computer simulation # theory and modeling;
87.17.Aa
computer simulation of liquid structure
61.20.Ja
computer simulation of molecular and particle dynamics
83.10.Rs
computer systems: hardware, operating systems, computer languages, and utilities
07.05.Bx
computer techniques # mathematical procedures and
95.75.Pq
computer use # instructional
01.50.Ht
computer use # laboratory
01.50.Lc
computer vision; robotic vision
42.30.Tz
computer-aided circuit design and analysis) # circuit theory (including
84.30.Bv
computer-aided design of microcircuits; layout and modeling
85.40.Bh
computer-generated holograms
42.40.Jv
computerized simulation # theory, design, and
28.41.Ak
computerized simulation # theory, design, and
28.52.Av
computers in experimental physics
07.05.-t
computers, logic elements, interconnects, switches; neural networks # optical
42.79.Ta
computers, logic elements, interconnects, switches; neural networks) # interconnects, including holographic interconnects (see also 42.79.Td optical
42.82.Ds
computers, logic elements, interconnects, switches; neural networks) # optical bistability, multistability, and switching (see also 42.60.Gd Q-switching; 42.79.Ta optical
42.65.Pc
concentration, distribution, and gradients # impurity
61.72.Ss
concentration, etc. # defects and impurities: doping, implantation, distribution,
68.55.Ln
concentrators # solar collectors and
42.79.Ek
concepts # other advanced accelerator
41.75.Lx
condensation # evaporation and
68.03.Fg
condensation phenomena # phase coherent atomic ensembles; quantum
03.75.Fi
condensation, evaporation, sputtering, mantle growth, etc.) # dust processes (
95.30.Wi
condensed matter # electronic transport in
72.
condensed matter # mechanical and acoustical properties of
62.
condensed matter # optical properties, condensed-matter spectroscopy and other interactions of radiation and particles with
78.
condensed matter # other topics in electronic transport in
72.90.+y
condensed matter # other topics in mechanical and acoustical properties of
62.90.+k
condensed matter # other topics in nonelectronictransport properties of
66.90.+r
condensed matter # other topics in optical properties, condensed matter spectroscopy and other interactions of particles and radiation with
78.90.+t
condensed matter # other topics in thermal properties of
65.90.+i
condensed matter # thermal properties of
65.
condensed matter # time-resolved optical spectroscopies and other ultrafast optical measurements in
78.47.+p
condensed matter (nonelectronic) # transport properties of
66.
condensed matter spectroscopy and other interactions of particles and radiation with condensed matter # other topics in optical properties,
78.90.+t
condensed matter, Moessbauer effect # magnetic resonances and relaxations in
76.
condensed matter: electonic structure, electrical , magnetic, and optical properties
70.
condensed matter: structural, mechanical and thermal properties
60.
condensed-matter spectroscopy and other interactions of radiation and particles with condensed matter # optical properties,
78.
conditions) # electrical and magnetic properties (related to treatment
81.40.Rs
conditions) # optical and dielectric properties (related to treatment
81.40.Tv
Condon factors # oscillator and band strengths, lifetimes, transition moments, and Franck -
33.70.Ca
conducting polymers
82.35.Cd
conduction # heat
44.10.+i
conduction # ionic
66.10.Ed
conduction and heat-pulse propagation in solids; thermal waves # nonelectronic thermal
66.70.+f
conduction electrons
76.30.Pk
conduction in amorphous and liquid metals and alloys # electrical and thermal
72.15.Cz
conduction in crystalline metals and alloys # electrical and thermal
72.15.Eb
conduction in liquids # diffusion and ionic
66.10.-x
conduction in metals and alloys # electronic
72.15.-v
conduction in nonmetallic liquids # thermal
66.60.+a
conduction in nonmetals # self-diffusion and ionic
66.30.Hs
conduction in solids # theory of diffusion and ionic
66.30.Dn
conduction, convection, equations of state # thermodynamic processes,
95.30.Tg
conductivity # viscosity, diffusion, and thermal
51.20.+d
conductivity (magnetotelluric effects) # geoelectricity; electromagnetic induction and
91.25.Qi
conductivity and carrier phenomena # surface
73.25.+i
conductivity and conductivity transitions # mixed
72.60.+g
conductivity of specific materials
72.80.-r
conductivity oscillation devices (including Hall effect devices, space-charge-limited devices, and Gunn effect devices) # bulk semiconductor and
85.30.Fg
conductivity phenomena in semiconductors and insulators
72.20.-i
conductivity transitions # mixed conductivity and
72.60.+g
conductors) # collective modes (e.g., in one-dimensional
72.15.Nj
conductors, resistors (including thermistors, varistors, and photoresistors)
84.32.Ff
conduits # flows in ducts, channels, nozzles, and
47.60.+i
conference proceedings
01.30.Cc
conferences, lectures, and institutes
01.10.Fv
configuration # magnetospheric
94.30.Ch
configuration (bonds, dimensions)
36.20.Hb
configurations, rotamaks, astrons, ion rings, magnetized target fusion, and cusps # field-reversed
52.55.Lf
confined liquid crystals, polymer dispersed liquid crystals, and porous systems # microconfined liquid crystals: droplets, cylinders, randomly
61.30.Pq
confinement # electrostatic and high-frequency
52.58.Qv
confinement # heavy-ion inertial
52.58.Hm
confinement # laser inertial
52.57.-z
confinement # light-ion inertial
52.58.Ei
confinement and equilibrium # magnetic
52.55.-s
confinement devices # stellarators, torsatrons, heliacs, bumpy tori, and other toroidal
52.55.Hc
confinement methods # other
52.58.-c
confinement, etc.) # general properties of QCD (dynamics,
12.38.Aw
confocal microscopy
87.64.Tt
conformal field theory, algebraic structures
11.25.Hf
conformal radiation treatment
87.53.Kn
conformation (statistics and dynamics)
36.20.Ey
conformation and symmetry; stereochemistry # general molecular
33.15.Bh
conformational changes # dynamics and
87.15.He
conformational dynamics) # barrier heights (internal rotation, inversion, rotational isomerism,
33.15.Hp
conjugation, optical mixing, and photorefractive effect # phase
42.65.Hw
conjugation, parity, time reversal, and other discrete symmetries # charge
11.30.Er
connectors, relays, and switches
84.32.Dd
conservation laws # symmetry and
11.30.-j
conserved axial-vector currents # partially
11.40.Ha
constant, absorption, reflection and transmission coefficients, emissivity) # optical constants (including refractive index, complex dielectric
78.20.Ci
constant, distance scale, cosmological constant, early Universe, etc) # observational cosmology (including Hubble
98.80.Es
constant, early Universe, etc) # observational cosmology (including Hubble constant, distance scale, cosmological
98.80.Es
constant-composition solid-solid phase transformations: polymorphic, massive, and order-disorder
81.30.Hd
constants # chemical equilibria and equilibrium
82.60.Hc
constants # determination of fundamental
06.20.Jr
constants # elasticity, elastic
62.20.Dc
constants # piezoelectric and electrostrictive
77.65.Bn
constants # rotation, vibration, and vibration-rotation
33.15.Mt
constants # stochastic theories of rate
82.20.Uv
constants # transition state theory and statistical theories of rate
82.20.Db
constants (including refractive index, complex dielectric constant, absorption, reflection and transmission coefficients, emissivity) # optical
78.20.Ci
constants (tunneling, resonances, etc.) # quantum effects in rate
82.20.Xr
constants and its applications # correlation function theory of rate
82.20.Sb
constants, line identification, oscillator strengths, gf values, transition probabilities, etc.) # atomic and molecular data, spectra, and spectral parameters (opacities, rotation
95.30.Ky
constants, reaction cross sections, and activation energies # rate
82.20.Pm
constitution (chains and sequences)
36.20.Fz
constitutive relations
83.10.Gr
construction # urban planning and
89.65.Lm
construction) # computational methodology (Brillouin zone sampling, iterative diagonalization, pseudopotential
71.15.Dx
contact devices # surface barrier, boundary, and point
85.30.Hi
contact potential # contact resistance,
73.40.Cg
contact resistance, contact potential
73.40.Cg
contacts # metal-nonmetal
73.40.Ns
contacts # metal-to-metal
73.40.Jn
contacts # semiconductor-electrolyte
73.40.Mr
contacts # tribology and mechanical
46.55.+d
contacts, interconnects; device isolation # metallization,
85.40.Ls
contacts, p-n junctions, and heterojunctions # III-V semiconductor-to-semiconductor
73.40.Kp
contacts, p-n junctions, and heterojunctions # other semiconductor-to-semiconductor
73.40.Lq
containing mesons, muons, and other unusual particles) # exotic atoms and molecules (
36.10.-k
content and populations; morphology and overall structure # stellar
98.35.Ln
content and populations; radii; morphology and overall structure # stellar
98.62.Lv
continental crust seismology
91.30.Vc
continental margins
91.45.Cg
continuous media and classical fields in curved spacetime # self-gravitating systems;
04.40.-b
continuous operation
42.60.Pk
continuum # inelastic electron scattering to
25.30.Fj
continuum mechanics
83.10.Ff
continuum mechanics (see also 02.70.-c computational techniques in mathematical methods in physics) # computational methods in
46.15.-x
continuum mechanics of solids
46.
continuum mechanics of solids # general theory of
46.05.+b
continuum mechanics of solids # measurement methods and techniques in
46.80.+j
continuum mechanics of solids # other topics in
46.90.+s
continuum mechanics to structures # application of
46.70.-p
continuum models and theories of liquid crystal structure
61.30.Dk
contrast, DIC # light microscopy: bright-field, dark-field, phase
87.64.Rr
contrast, resolution, noise, etc. # image quality:
87.57.Ce
control # flow
47.62.+q
control # military technology and weapons systems; arms
89.20.Dd
control # noise: its effects and
43.50.+y
control # turbulence
47.27.Rc
control devices # magnetic levitation, propulsion and
85.70.Rp
control equipment; robots # servo and
07.07.Tw
control of atomic interactions with photons # coherent
32.80.Qk
control of chaos, applications of chaos
05.45.Gg
control of mechanical systems
45.80.+r
control of photochemical reactions
82.50.Nd
control systems
07.05.Dz
control systems # reactor
28.41.My
control theory
02.30.Yy
control, and safety # radiation monitoring,
87.52.-g
control, remote sensing; radar # telemetry: remote
84.40.Xb
convection # forced
44.27.+g
convection # natural
44.25.+f
convection and heat transfer
47.27.Te
convection currents
91.45.Fj
convection, and heat transfer # turbulent flows,
47.27.-i
convection, diffusion, mixing, turbulence, and fallout
94.10.Lf
convection, equations of state # thermodynamic processes, conduction,
95.30.Tg