dynamics) # conformation (statistics and
36.20.Ey
dynamics, and rotation # kinematics,
98.35.Df
dynamics, and rotation # kinematics,
98.62.Dm
dynamics, andsound propagation # structure, lattice
67.80.Cx
dynamics, Brownian dynamics # molecular
83.10.Mj
dynamics, confinement, etc.) # general properties of QCD (
12.38.Aw
dynamics, turbulence, etc.) # physical properties (abundances, electron density, magnetic fields, scintillation, scattering, kinematics,
98.38.Am
dynamics, turbulence, etc.) # physical properties (abundances, electron density, magnetic fields, scintillation, scattering, kinematics,
98.58.Ay
dynamics; collective effects and instabilities # beam
29.27.Bd
dynamics; dynamics of van_der_Waals molecules # intramolecular energy transfer; intramolecular
34.30.+h
dynamo theories # origins and models of the magnetic field;
91.25.Cw
E region
94.20.Gg
E, F, and topside regions) including steady-state ion densities and temperatures # ionospheric structure (D,
94.20.Dd
early Universe (including cosmic pancakes, cosmic strings, chaotic phenomena, inflationary universe, etc.) # particle-theory and field-theory models of the
98.80.Cq
early Universe, etc) # observational cosmology (including Hubble constant, distance scale, cosmological constant,
98.80.Es
early-type stars (O and B) # main-sequence:
97.20.Ec
earth metals # alkali and alkaline
71.20.Dg
earth metals and alloys # rare
71.20.Eh
Earth physics # other topics in solid
91.90.+p
Earth physics # solid
91.
Earth satellites # artificial
95.40.+s
Earth tides
91.10.Tq
Earth's interior # composition of
91.35.Lj
Earth's interior # tomography of the
91.35.Pn
Earth's interior below the upper mantle # structure of the
91.35.Ed
Earth's interior structure and properties
91.35.-x
Earth, magma, ice, rocks, etc. # geological materials:
83.80.Nb
Earth/atmosphere interaction # ocean/
91.10.Vr
earthquake prediction # phenomena related to
91.30.Px
EBIC) # scanning electron microscopy (SEM) (including
68.37.Hk
echo, free-induction decay, dephasings and revivals, optical nutation, and self-induced transparency # optical transient phenomena: quantum beats, photon
42.50.Md
echoes # spin
76.60.Lz
eclipses, transits, and occultations
95.10.Gi
eclipsing binaries
97.80.Hn
ecological pattern formation # population dynamics and
87.23.Cc
ecology and evolution
87.23.-n
economics, business, and financial markets
89.65.Gh
ECR, LH, collisional heating # plasma heating by microwaves;
52.50.Sw
eddy-current testing # nondestructive testing: electromagnetic testing,
81.70.Ex
edge and boundary effects; reflection and refraction
42.25.Gy
edge) # superconducting optical, x-ray, and gamma-ray detectors (SIS, NIS, transition
85.25.Oj
edges; hopping transport # mobility
72.20.Ee
education
01.40.-d
education research (cognition, problem solving, etc.) # physics
01.40.Fk
education, history, and philosophy # communication,
01.
educational aids
01.50.-i
effect # hyperfine interactions and isotope effects, Jahn - Teller
31.30.Gs
effect # interaction between different crystal defects; gettering
61.72.Yx
effect # magnetic resonances and relaxations in condensed matter, Moessbauer
76.
effect # phase conjugation, optical mixing, and photorefractive
42.65.Hw
effect # scattering mechanisms and Kondo
72.15.Qm
effect # spin-orbit coupling, Zeeman and Stark splitting, Jahn - Teller
71.70.Ej
effect and inner-shell excitation or ionization # Auger
32.80.Hd
effect devices # field
85.30.Tv
effect devices) # bulk semiconductor and conductivity oscillation devices (including Hall effect devices, space-charge-limited devices, and Gunn
85.30.Fg
effect devices, space-charge-limited devices, and Gunn effect devices) # bulk semiconductor and conductivity oscillation devices (including Hall
85.30.Fg
effect transistors # spin polarized field
85.75.Hh
effect) # muon scattering (including the EMC
25.30.Mr
effect) # scattering by point defects, dislocations, surfaces, and other imperfections (including Kondo
72.10.Fk
effect, magnetic cooling # magnetocaloric
75.30.Sg
effect, valence fluctuations, heavy fermions # local moment in compounds and alloys; Kondo
75.20.Hr
effect; other y-ray spectroscopy (see also 33.45.+x Moessbauer spectra - in atomic and molecular physics) # Moessbauer
76.80.+y
effective interactions # forces in hadronic systems and
21.30.Fe
effective mass, g factor # fermi surface: calculations and measurements;
71.18.+y
effective temperatures, colors, and spectral classification # luminosities; magnitudes;
97.10.Ri
effective theory # heavy quark
12.39.Hg
effects # acoustoelectric
72.50.+b
effects # atmospheric
91.40.Dr
effects # atmospheric turbulence
42.68.Bz
effects # atom and molecule irradiation
61.80.Lj
effects # collective
71.45.-d
effects # Coriolis
92.10.Ei
effects # crystallographic aspects of phase transformations; pressure
61.50.Ks
effects # dielectric breakdown and space-charge
77.22.Jp
effects # electrons and positron radiation
61.80.Fe
effects # electrooptical
78.20.Jq
effects # environmental and solvent
31.70.Dk
effects # fusion products effects (e.g., alpha-particles, etc.), fast particle
52.55.Pi
effects # galvanomagnetic and other magnetotransport
72.15.Gd
effects # galvanomagnetic and other magnetotransport
72.20.My
effects # gamma-ray
61.80.Ed
effects # high-field and nonlinear
72.20.Ht
effects # high-frequency effects; plasma
72.30.+q
effects # hydrogen bonding, hydrophilic
82.30.Rs
effects # interplanetary propagation and
96.40.Cd
effects # ion radiation
61.80.Jh
effects # magnetic annealing and temperature-hysteresis
75.60.Nt
effects # magnetization curves, hysteresis, Barkhausen and related
75.60.Ej
effects # magnetoacoustic
72.55.+s
effects # magnetooptical
78.20.Ls
effects # neutron radiation
61.80.Hg
effects # other magnetooptical and electrooptical
33.55.Fi
effects # photoconduction and photovoltaic
72.40.+w
effects # piezoelectricity and electromechanical
77.65.-j
effects # piezooptical, elastooptical, and acoustooptical effects; photoacoustic
78.20.Hp
effects # plasma-material interactions; boundary layer
52.40.Hf
effects # pyroelectric and electrocaloric
77.70.+a
effects # quantum Hall
73.43.-f
effects # relativistic
71.15.Rf
effects # relaxation
76.60.Es
effects # solar modulation and geophysical
96.40.Kk
effects # theory and models of radiation
61.80.Az
effects # thermal expansion; thermomechanical
65.40.De
effects # thermal stability; thermal
68.60.Dv
effects # thermoelectric and thermomagnetic
72.15.Jf
effects # thermoelectric and thermomagnetic
72.20.Pa
effects # thermooptical and photothermal
78.20.Nv
effects # winds and their
92.60.Gn
effects # x-ray
61.80.Cb
effects # Zeeman and Stark
32.60.+i
effects # Zeeman and Stark
33.55.Be
effects (Anderson or weak localization) # localization
72.15.Rn
effects (Bose effects, phase space filling, and excitonic phase transitions) # collective
71.35.Lk
effects (e.g., alpha-particles, etc.), fast particle effects # fusion products
52.55.Pi
effects (e.g., rod climbing) # normal stress differences and their
83.60.Hc
effects (including laser radiation) # ultraviolet, visible, and infrared radiation
61.80.Ba
effects (interfacial and free surface flows) # slip boundary
83.50.Lh
effects (see also 33.40.+f multiple resonances in atomic and molecular physics) # magnetic double resonances and cross
76.70.-r
effects and control # noise: its
43.50.+y
effects and instabilities # beam dynamics; collective
29.27.Bd
effects and surface acoustic waves (SAW) in piezoelectrics # acoustoelectric
77.65.Dq
effects in atoms # weak-interaction
32.80.Ys
effects in atoms and molecules # relativistic and quantum electrodynamic
31.30.Jv
effects in clusters # plasma and collective
36.40.Gk
effects in meteorites and terrestrial matter # cosmic-ray
96.40.Vw
effects in rate constants (tunneling, resonances, etc.) # quantum
82.20.Xr
effects in solids and liquids # high-pressure and shock-wave
62.50.+p
effects including muonium # kinetic isotope
82.20.Tr
effects of accelerations, weightlessness, and space environment) # aerospace bio- and medical physics (
87.65.+y
effects of aerosols
42.68.Jg
effects of air pollution
42.68.Kh
effects of atomic and molecular interactions on electronic structure
31.70.-f
effects of atomic coherence on propagation, absorption, and amplification of light
42.50.Gy
effects of clouds and water
42.68.Ge
effects of electric and magnetic fields
83.60.Np
effects of internal magnetic fields
76.60.Jx
effects of light on atoms, molecules, and ions # mechanical
32.80.Lg
effects of light on atoms, molecules, electrons, and ions # mechanical
42.50.Vk
effects of radiation and external fields on biomolecules, cells and higher organisms
87.50.-a
effects of sound # ultrasonics, quantum acoustics, and physical
43.35.+d
effects on instruments (e.g., radiation and pollution effects) # environmental
07.89.+b
effects on microstructure and properties # treatment of materials and its
81.40.-z
effects on optical elements, devices, and systems # radiation
42.88.+h
effects on order # orientational order of liquid crystals; electric and magnetic field
61.30.Gd
effects on reactivity # solvent
82.20.Yn
effects on specific materials # radiation
61.82.-d
effects on the structure and dynamics of nondegenerate fluids (e.g., normal phase liquid 4He) # quantum
67.20.+k
effects) # environmental effects on instruments (e.g., radiation and pollution
07.89.+b
effects) # geoelectricity; electromagnetic induction and conductivity (magnetotelluric
91.25.Qi
effects, etc.) # nonlinear phenomena: waves, wave propagation, and other interactions (including parametric effects, mode coupling, ponderomotive
52.35.Mw
effects, Jahn - Teller effect # hyperfine interactions and isotope
31.30.Gs
effects, magnetization curves, and hysteresis # domain
75.60.-d
effects, magnetostriction # magnetomechanical and magnetoelectric
75.80.+q
effects, mode coupling, ponderomotive effects, etc.) # nonlinear phenomena: waves, wave propagation, and other interactions (including parametric
52.35.Mw
effects, phase space filling, and excitonic phase transitions) # collective effects (Bose
71.35.Lk
effects, radiation damage # physical radiation
61.80.-x
effects, radiation damage) # radiation treatment (particle and electromagnetic) (see also 61.80.-x physical radiation
81.40.Wx
effects, specific heats, short-range order # critical-point
75.40.-s
effects; photoacoustic effects # piezooptical, elastooptical, and acoustooptical
78.20.Hp
effects; plasma effects # high-frequency
72.30.+q
effects; reflection and refraction # edge and boundary
42.25.Gy
efficiency, resolution, and other hologram characteristics # diffraction
42.40.Lx
efficiency, stability, gain, and other operational parameters
42.60.Lh
eikonal approximation, variational principles, etc.) # approximations (
11.80.Fv
Einstein - Maxwell spacetimes, spacetimes with fluids, radiation or classical fields
04.40.Nr
EIT) # electrical impedance tomography (
87.63.Pn
ejection # coronal mass
96.60.Wh
El_Nino
92.10.Gk
elastic and Compton scattering
13.60.Fz
elastic and inelastic scattering
25.45.De
elastic and inelastic scattering
25.55.Ci
elastic and quasielastic scattering
25.70.Bc
elastic constants # elasticity,
62.20.Dc
elastic electron scattering
25.30.Bf
elastic neutron scattering
25.40.Dn
elastic proton scattering
25.40.Cm
elastic scattering
13.85.Dz
elastic scattering
25.60.Bx
elastic scattering # pion
25.80.Dj
elastic scattering of electrons by atoms and molecules
34.80.Bm
elastic waves; vibrations # mechanical and
62.30.+d
elasticity # static
46.25.-y
elasticity (electroelasticity, magnetoelasticity) # thermoelasticity and electromagnetic
46.25.Hf
elasticity and anelasticity, stress-strain relations
81.40.Jj
elasticity, elastic constants
62.20.Dc
elasticity, fracture, and flow
91.60.Ba
elastomeric polymers
83.80.Va
elastomers # filled
83.80.Wx
elastomers, and plastics # polymers,
61.41.+e
elastooptical, and acoustooptical effects; photoacoustic effects # piezooptical,
78.20.Hp
ELDOR) # electron-nuclear double resonance (ENDOR), electron double resonance (
76.70.Dx
elecreomagnetism, optics, acoustics, heat transfer, classical mechanics and fluid mechanics
40.
electonic structure, electrical , magnetic, and optical properties # condensed matter:
70.
electric and magnetic # charged-particle spectrometers:
29.30.Aj
electric and magnetic field effects on order # orientational order of liquid crystals;
61.30.Gd
electric and magnetic fields
96.35.Pb
electric and magnetic fields
96.60.Hv
electric and magnetic fields
98.35.Eg
electric and magnetic fields
98.62.En
electric and magnetic fields # effects of
83.60.Np
electric and magnetic fields (including solar wind fields) # solar
96.50.Bh
electric and magnetic measurements
52.70.Ds
electric and magnetic moments
13.40.Em
electric and magnetic moments (and derivatives), polarizability, and magnetic susceptibility
33.15.Kr
electric and magnetic moments, polarizability
32.10.Dk
electric discharges
52.80.-s
electric discharges # other topics in physics of plasmas and
52.90.+z
electric discharges # physics of plasmas and
52.
electric discharges) # plasma reactions (including flowing afterglow and
82.33.Xj
electric fields
87.50.Rr
electric fields
94.20.Ss
electric fields
94.30.Kq
electric fields; polarization of starlight # magnetic and
97.10.Ld
electric motors
84.50.+d
electric properties # magnetic and
91.60.Pn
electric variable measurements (including voltage, current, resistance, capacitance, inductance, impedance, and admittance, etc.)
84.37.+q
electrical , magnetic, and optical properties # condensed matter: electonic structure,
70.
electrical and electronic instruments and components
07.50.-e
electrical and magnetic properties (related to treatment conditions)
81.40.Rs
electrical and thermal conduction in amorphous and liquid metals and alloys
72.15.Cz
electrical and thermal conduction in crystalline metals and alloys
72.15.Eb
electrical impedance tomography (EIT)
87.63.Pn
electrical injection of spin polarized carriers
72.25.Hg
electrical noise and shielding equipment
07.50.Hp
electrical properties (ionization, breakdown, electron and ion mobility, etc.)
51.50.+v
electrical properties of surfaces, interfaces, thin films, and low-dimensional structures # electronic structure and
73.
electrical, movement, gas, etc.); remote sensing # sensors (chemical, optical,
07.07.Df
electricity # atmospheric
92.60.Pw
electricity (see also 92.60.Pw in hydrospheric and atomospheric geophysics) # arcs; sparks; lightning; atmospheric
52.80.Mg
electricity discharges # physics of gases, plasmas and
50.
electro-osmosis, membraneprocesses # ion exchange, dialysis, osmosis,
82.39.Wj
electro-rheological and magnetorheological fluids
83.80.Gv
electrocaloric effects # pyroelectric and
77.70.+a
electrochemical cells and batteries; fuel cells # electrochemical conversion and storage:
84.60.Dn
electrochemical conversion and storage: electrochemical cells and batteries; fuel cells
84.60.Dn
electrochemical devices
85.80.Dg
electrochemical methods
82.80.Fk
electrochemical, thermoelectromagnetic, and other devices
85.80.-b
electrochemistry and electrophoresis
82.45.-h
electrode kinetics
82.45.Fk
electrodeposition and electrodissolution
82.45.Qr
electrodeposition, electroplating
81.15.Pq
electrodissolution # electrodeposition and
82.45.Qr
electrodynamic effects in atoms and molecules # relativistic and quantum
31.30.Jv
electrodynamics # quantum
12.20.-m
electroelasticity, magnetoelasticity) # thermoelasticity and electromagnetic elasticity (
46.25.Hf
electrogasdynamic and other direct energy conversion # thermoelectric,
84.60.Rb
electrohydrodynamics # magnetohydrodynamics and
47.65.+a
electroluminescence
78.60.Fi
electrolytes, molten salts, etc. # structure of associated liquids:
61.20.Qg
electromagnetic (nonlaser) radiation interactions with plasma
52.40.Db
electromagnetic corrections to strong-interaction and weak-interaction processes
13.40.Ks
electromagnetic decays
13.40.Hq
electromagnetic elasticity (electroelasticity, magnetoelasticity) # thermoelasticity and
46.25.Hf
electromagnetic form factors
13.40.Gp
electromagnetic induction and conductivity (magnetotelluric effects) # geoelectricity;
91.25.Qi
electromagnetic interactions of leptons (see also 13.35.-r decays of leptons) # weak and
13.10.+q
electromagnetic mass differences
13.40.Dk
electromagnetic moments
21.10.Ky
electromagnetic processes and properties
13.40.-f
electromagnetic radiation # emission, absorption, and scattering of
52.25.Os
electromagnetic radiation # solar
96.60.Tf
electromagnetic testing, eddy-current testing # nondestructive testing:
81.70.Ex
electromagnetic transitions
23.20.-g
electromagnetic wave propagation; radiowave propagation
41.20.Jb
electromagnetic waves (e.g., electron-cyclotron, Whistler, Bernstein, upper hybrid, lower hybrid)
52.35.Hr
electromagnetic waves; propagation # interaction of atmosphere with
92.60.Ta
electromagnetic) (see also 61.80.-x physical radiation effects, radiation damage) # radiation treatment (particle and
81.40.Wx
electromagnetism # applied classical
41.20.-q
electromagnetism, Maxwell equations # classical
03.50.De
electromagnetism; electron and ion optics
41.
electromagnetism; electron and ion optics # other topics in
41.90.+e
electromagnetism; for propagation in atmosphere, see 42.68.Ay; see also 52.40.Db, 52.38.-r - in plasma physics) # wave propagation, transmission and absorption (see also 41.20.Jb - in
42.25.Bs
electromechanical effects # piezoelectricity and
77.65.-j
electromechanical resonance; quartz resonators
77.65.Fs
electrometers
07.50.Ls
electromigration
66.30.Qa
electron affinities # ionization potentials,
32.10.Hq
electron affinities, molecular core binding energy # ionization potentials,
33.15.Ry
electron and ion emission by liquids and solids and impact phenomena # other topics in
79.90.+b
electron and ion emission by liquids and solids; impact phenomena
79.
electron and ion mobility, etc.) # electrical properties (ionization, breakdown,
51.50.+v
electron and ion optics # electromagnetism;
41.
electron and ion optics # other topics in electromagnetism;
41.90.+e
electron AND ion spectrometers
07.81.+a
electron and muon capture # beta decay; double beta decay;
23.40.-s
electron and photoelectron spectroscopy
87.64.Lg
electron and positron beams
41.75.Fr
electron and positron beams # relativistic
41.75.Ht
electron and positron dosimetry: measurements
87.53.Hv
electron and positron dosimetry: theory and algorithms
87.53.Fs
electron attachment # electron-ion recombination and
34.80.Lx
electron beam experiments # spin dependence of cross sections; polarized
34.80.Nz
electron beam-assisted deposition) # plasma-based ion implantation and deposition (see also 81.15.Jj ion and
52.77.Dq