fermion models (Hubbard model, etc.) # lattice
71.10.Fd
fermion systems and electron gas
05.30.Fk
fermions # local moment in compounds and alloys; Kondo effect, valence fluctuations, heavy
75.20.Hr
fermions # strongly correlated electron systems; heavy
71.27.+a
fermions in reduced dimensions (anyons, composite fermions, Luttinger liquid, etc.)
71.10.Pm
fermions, Luttinger liquid, etc.) # fermions in reduced dimensions (anyons, composite
71.10.Pm
ferrimagnetic resonances; spin-wave resonance # ferromagnetic, antiferromagnetic, and
76.50.+g
ferrimagnetics
75.50.Gg
ferrite and garnet devices
85.70.Ge
ferroelectric memories # non-volatile
85.50.Gk
ferroelectric, and antiferroelectric materials # dielectric, piezoelectric,
77.84.-s
ferroelectric, and piezoelectric devices # dielectric,
85.50.-n
ferroelectricity and antiferroelectricity
77.80.-e
ferroelectrics and their properties # dielectrics, piezoelectrics, and
77.
ferroelectrics and their properties # other topics in dielectrics, piezoelectrics, and
77.90.+k
ferromagnetic materials # nonmetallic
75.50.Dd
ferromagnetic metals and alloys # other
75.50.Cc
ferromagnetic, antiferromagnetic, and ferrimagnetic resonances; spin-wave resonance
76.50.+g
few-body and many-body systems
45.50.Jf
few-body systems
21.45.+v
few-nucleon systems # nuclear reactions involving
25.10.+s
fiber devices # gradient-index (GRIN)
42.81.Ht
fiber lasers
42.55.Wd
fiber optics
42.81.-i
fiber parameters # fiber testing and measurement of
42.81.Cn
fiber testing and measurement of fiber parameters
42.81.Cn
fiber waveguides, couplers, and arrays
42.81.Qb
fiber-optic instruments
07.60.Vg
fiber-optical devices # other
42.81.Wg
fiber-reinforced, and platelet-reinforced metal-based composites # dispersion-reinforced,
81.05.Ni
fibers, and tapes # superconducting wires,
85.25.Kx
fibers; organometallic and organic materials # polymers and plastics; rubber; synthetic and natural
81.05.Lg
field # harmonics of the gravity potential
91.10.Qm
field effect devices
85.30.Tv
field effect transistors # spin polarized
85.75.Hh
field effects on order # orientational order of liquid crystals; electric and magnetic
61.30.Gd
field emission and field-ion microscopy
68.37.Vj
field emission displays (FEDs)
85.45.Fd
field emission, ionization, evaporation, and desorption
79.70.+q
field emitter and arrays, cold electron emitters
85.45.Db
field measurements # magnetometers for magnetic
07.55.Ge
field methods # self-consistent-
31.15.Ne
field sensors using spin polarized transport # magnetic
85.75.Ss
field states; squeezed, antibunched, and sub-Poissonian states; operational definitions of the phase of the field; phase measurements # nonclassical
42.50.Dv
field structure, etc. # general theory and basic studies of plasma lifetime, particle and heat loss, energy balance,
52.55.Dy
field theories # classical
03.50.-z
field theories # gauge
11.15.-q
field theories and models # models beyond the standard model see also 12.10.-g unified
12.60.-i
field theories and models # unified
12.10.-g
field theories in dimensions other than four
11.10.Kk
field theories, # other special classical
03.50.Kk
field theories, and special relativity # quantum mechanics,
03.
field theories; alternative theories of gravity # gravity in more than four dimensions, Kaluza - Klein theory, unified
04.50.+h
field theory
11.10.-z
field theory # finite-temperature
11.10.Wx
field theory # nonperturbative techniques; string
11.25.Sq
field theory in curved spacetime # quantum
04.62.+v
field theory, algebraic structures # conformal
11.25.Hf
field, selenodesy, magnetic fields # gravitational
96.20.Jz
field-ion microscopy # field emission and
68.37.Vj
field-reversed configurations, rotamaks, astrons, ion rings, magnetized target fusion, and cusps
52.55.Lf
field-theory models of the early Universe (including cosmic pancakes, cosmic strings, chaotic phenomena, inflationary universe, etc.) # particle-theory and
98.80.Cq
field; dynamo theories # origins and models of the magnetic
91.25.Cw
field; phase measurements # nonclassical field states; squeezed, antibunched, and sub-Poissonian states; operational definitions of the phase of the
42.50.Dv
fields # crystal and ligand
71.70.Ch
fields # effects of electric and magnetic
83.60.Np
fields # effects of internal magnetic
76.60.Jx
fields # Einstein - Maxwell spacetimes, spacetimes with fluids, radiation or classical
04.40.Nr
fields # electric
87.50.Rr
fields # electric
94.20.Ss
fields # electric
94.30.Kq
fields # electric and magnetic
96.35.Pb
fields # electric and magnetic
96.60.Hv
fields # electric and magnetic
98.35.Eg
fields # electric and magnetic
98.62.En
fields # gravitational field, selenodesy, magnetic
96.20.Jz
fields # magnetic
87.50.Mn
fields # magnetoelectronics: devices exploiting spin polarized transport or integrated magnetic
85.75.-d
fields # strain-induced piezoelectric
77.65.Ly
fields # the physics of elementary particles and
10.
fields # theory of quantized
03.70.+k
fields (including solar wind fields) # solar electric and magnetic
96.50.Bh
fields and particles # other topics in general theory of
11.90.+t
fields in curved spacetime # self-gravitating systems; continuous media and classical
04.40.-b
fields in plasmas # laser-induced magnetic
52.38.Fz
fields on biomolecules, cells and higher organisms # effects of radiation and external
87.50.-a
fields) # solar electric and magnetic fields (including solar wind
96.50.Bh
fields, and other observations # gravitational radiation, magnetic
95.85.Sz
fields, scintillation, scattering, kinematics, dynamics, turbulence, etc.) # physical properties (abundances, electron density, magnetic
98.38.Am
fields, scintillation, scattering, kinematics, dynamics, turbulence, etc.) # physical properties (abundances, electron density, magnetic
98.58.Ay
fields; ICR, ICP, helicons # plasma heating by radio-frequency
52.50.Qt
fields; magnetoexcitons # excitons in magnetic
71.35.Ji
fields; magnets # generation of magnetic
07.55.Db
fields; ohmic heating, arcs # plasma heating by DC
52.50.Nr
fields; polarization of starlight # magnetic and electric
97.10.Ld
fields; rotation; orbits # mass, size; gravitational
96.35.Fs
figure of merit # performance characteristics of energy conversion systems;
84.60.Bk
figure, rotation, mass # diameter,
96.60.Bn
filament-based sources (e.g., Q machines, double-plasma and triple-plasma devices, etc.) # thermionic and
52.75.Xx
filamentation in plasmas # self-focussing, channeling, and
52.38.Hb
filaments, microtubules, their networks, and supramolecular assemblies
87.16.Ka
filled elastomers
83.80.Wx
filling, and excitonic phase transitions) # collective effects (Bose effects, phase space
71.35.Lk
film devices: magnetic heads (magnetoresistive, inductive, etc.); domain-motion devices, etc. # magnetic thin
85.70.Kh
film growth # theory and models of
81.15.Aa
film growth and epitaxy # methods of deposition of films and coatings;
81.15.-z
film structure and morphology # thin
68.55.-a
films # adsorbed layers and thin
79.60.Dp
films # audio and visual aids,
01.50.Fr
films # dielectric thin
77.55.+f
films # hybrid microelectronics; thick
85.40.Xx
films # liquid thin
68.15.+e
films # magnetic properties of monolayers and thin
75.70.Ak
films # microscopy of surfaces, interfaces, and thin
68.37.-d
films # optical properties of bulk materials and thin
78.20.-e
films # optical properties of specific thin
78.66.-w
films (including physical adsorption)
67.70.+n
films and coatings; film growth and epitaxy # methods of deposition of
81.15.-z
films and low-dimensional structures # other topics in structure, and nonelectronic properties of surfaces and interfaces; thin
68.90.+g
films and low-dimensional systems (structure and nonelectronic properties) # surfaces and interfaces; thin
68.
films and weak link transport
67.40.Rp
films on liquids # Langmuir - Blodgett
68.18.-g
films on solids, polymers on surfaces, biological molecules on surfaces # Langmuir - Blodgett
68.47.Pe
films) # x-ray reflectometry (surfaces, interfaces,
61.10.Kw
films, and low-dimensional structures # electronic structure and electrical properties of surfaces, interfaces, thin
73.
films, monolayers # thin layers,
82.45.Mp
films, nonelectronic # physical properties of thin
68.60.-p
films, surfaces, and interfaces # magnetic properties of thin
75.70.-i
films: silver bromide based, radiochromic, etc.
87.66.Cd
filters
84.30.Vn
filters, zone plates, and polarizers
42.79.Ci
final states # inelastic scattering: many-particle
13.85.Hd
final states # inelastic scattering: two-particle
13.85.Fb
financial markets # economics, business, and
89.65.Gh
finders, remote sensing devices; laser doppler velocimeters, SAR, and LIDAR # range
42.79.Qx
fine and hyperfine structure
32.10.Fn
fine and hyperfine structure
33.15.Pw
fine structure and microstructure
92.10.Ns
fine-particle systems
78.66.Vs
fine-particle systems; nanocrystalline materials
75.50.Tt
finishing # polishing, grinding, surface
81.65.Ps
finite-difference methods
02.70.Bf
finite-difference schemes
31.15.Fx
finite-element and Galerkin methods
02.70.Dh
finite-temperature field theory
11.10.Wx
fire-hose, mirror, ballooning, tearing, trapped-particle, flute, Rayleigh - Taylor, etc.) # macroinstabilities (hydromagnetic, e.g., kink,
52.35.Py
first sound
67.40.Mj
Fisher relation, etc.) # statistical and correlative studies of properties (luminosity and mass functions; mass-to-light ratio; Tully -
98.62.Ve
fission # charged-particle-induced
25.85.Ge
fission # general properties of
24.75.+i
fission # neutron-induced
25.85.Ec
fission # spontaneous
25.85.Ca
fission power # nuclear
89.30.Gg
fission reactions
25.85.-w
fission reactor types
28.50.-k
fission reactors
28.41.-i
fitting # interpolation; curve
02.60.Ed
flagella # pseudopods, lamellipods, cilia, and
87.16.Qp
flames, combustion, and explosions # reactions in
82.33.Vx
flare stars (UV Ceti, RS Canum Venaticorum, FU Orionis, R Coronae Borealis variables, etc.)
97.30.Nr
flares, bursts, and related phenomena
96.60.Rd
flavor symmetries
11.30.Hv
flight mass spectrometry # time of
82.80.Rt
flights # random walks and levy
05.40.Fb
floor spreading # spatial variations attributed to sea
91.25.Jc
flow # boundary layer heat
44.20.+b
flow # channel and internal heat
44.15.+a
flow # collective
25.75.Ld
flow # deformation and
83.50.-v
flow # elasticity, fracture, and
91.60.Ba
flow # granular models of complex systems; traffic
45.70.Vn
flow # kinematics of deformation and
83.10.Bb
flow # plasma dynamics and
52.30.-q
flow # steady shear flows, viscometric
83.50.Ax
flow and combined shear and extension # extensional
83.50.Jf
flow and heat transfer # pattern formation in reactions with diffusion,
82.40.Ck
flow and vorticity # rotational
47.32.-y
flow control
47.62.+q
flow estimation # angiography and macroscopic
87.61.Lh
flow in channels
83.50.Ha
flow in multiphase systems # heat
44.35.+c
flow in narrow channels # hydrodynamics in specific geometries,
67.40.Hf
flow in porous media # heat
44.30.+v
flow instabilities
83.60.Wc
flow measurement # extensional
83.85.Rx
flow: mixing, segregation and stratification # granular
45.70.Mg
flow; geothermy # heat
91.35.Dc
flowing afterglow and electric discharges) # plasma reactions (including
82.33.Xj
flows # chemically reactive
47.70.Fw
flows # free molecular
47.45.Dt
flows # general subsonic
47.40.Dc
flows # instability of shear
47.20.Ft
flows # intracluster matter; cooling
98.65.Hb
flows # jets, outflows and bipolar
98.58.Fd
flows # jets, outflows, and bipolar
98.38.Fs
flows # laminar
47.15.-x
flows # low-Reynolds-number (creeping)
47.15.Gf
flows # multiphase and particle-laden
47.55.Kf
flows # non-Newtonian fluid
47.50.+d
flows # nonhomogeneous
47.55.-t
flows # potential
47.15.Hg
flows # reactive, radiative, or nonequilibrium
47.70.-n
flows # separated
47.32.Ff
flows # slip
47.45.Gx
flows # stability of laminar
47.15.Fe
flows # stratified
47.55.Hd
flows # supersonic and hypersonic
47.40.Ki
flows # thick shear
47.27.Pa
flows # transonic
47.40.Hg
flows # wall-bounded thin shear
47.27.Lx
flows in cavities # laminar
47.15.Rq
flows in ducts, channels, nozzles, and conduits
47.60.+i
flows through porous media
47.55.Mh
flows with vorticity # inviscid
47.15.Ki
flows) # slip boundary effects (interfacial and free surface
83.50.Lh
flows, convection, and heat transfer # turbulent
47.27.-i
flows, viscometric flow # steady shear
83.50.Ax
flows; shock and detonation phenomena # compressible
47.40.-x
fluctuation and chaos phenomena
52.25.Gj
fluctuation phenomena
24.60.Ky
fluctuation phenomena, random processes, noise, and Brownian motion
05.40.-a
fluctuation, Kondo lattice, and heavy-fermion phenomena # valence
75.30.Mb
fluctuations
87.15.Ya
fluctuations # statistical theory and
24.60.-k
fluctuations, heavy fermions # local moment in compounds and alloys; Kondo effect, valence
75.20.Hr
fluctuations, quantum noise, and quantum jumps # quantum
42.50.Lc
fluid dynamics
47.
fluid dynamics # computational
83.85.Pt
fluid dynamics # computational methods in
47.11.+j
fluid dynamics # instrumentation for
47.80.+v
fluid dynamics # other topics in
47.90.+a
fluid dynamics # relativistic
47.75.+f
fluid equation # magnetohydrodynamic and
52.65.Kj
fluid flows # non-Newtonian
47.50.+d
fluid mechanics # applied
47.85.-g
fluid mechanics # elecreomagnetism, optics, acoustics, heat transfer, classical mechanics and
40.
fluidics
47.85.Np
fluids # disperse systems; complex
82.70.-y
fluids # electro-rheological and magnetorheological
83.80.Gv
fluids # mechanical properties of
47.17.+e
fluids # reactions in supercritical
82.33.De
fluids # rheology of body
87.19.Tt
fluids # statistical mechanics of classical
05.20.Jj
fluids (e.g., normal phase liquid 4He) # quantum effects on the structure and dynamics of nondegenerate
67.20.+k
fluids and solids; liquid and solid helium # other topics in quantum
67.90.+z
fluids and solids; liquid and solid helium # quantum
67.
fluids, radiation or classical fields # Einstein - Maxwell spacetimes, spacetimes with
04.40.Nr
fluorescence # x-ray emission spectra and
78.70.En
fluorescence and phosphorescence spectra
33.50.Dq
fluorescence and phosphorescence; radiationless transitions, quenching (intersystem crossing, internal conversion)
33.50.-j
fluorescence spectroscopy # optical absorption, magnetic circular dichroism, and
87.64.Ni
fluorescence, phosphorescence (including quenching)
32.50.+d
fluoroscopy
87.59.Ci
flute, Rayleigh - Taylor, etc.) # macroinstabilities (hydromagnetic, e.g., kink, fire-hose, mirror, ballooning, tearing, trapped-particle,
52.35.Py
foams # aerosols and
82.70.Rr
foams # emulsions and
83.80.Iz
Fock and random-phase approximations # Hartree -
21.60.Jz
focus # dense plasma
52.59.Hq
focus and other pinch devices # Z-pinches, plasma
52.58.Lq
focusing and bending magnets, wiggler magnets, and quadrupoles # beam
41.85.Lc
Fokker - Planck and Vlasov equation
52.65.Ff
Fokker - Planck, Langevin, etc.) # stochastic analysis methods (
05.10.Gg
folding # folds and
91.45.Ty
folding and sequence analysis
87.15.Cc
food # processed
83.80.Ya
force microscopes # atomic
07.79.Lh
force microscopes # friction
07.79.Sp
force microscopes # magnetic
07.79.Pk
force microscopy # acoustic
68.37.Tj
force microscopy # scanning tunneling and atomic
87.64.Dz
force microscopy (AFM) # atomic
68.37.Ps
force microscopy (MFM) # magnetic
68.37.Rt
force, and torque # instruments for strain,
07.10.Pz
forced convection
44.27.+g
forces # interatomic potentials and
34.20.Cf
forces # intermolecular and atom-molecule potentials and
34.20.Gj
forces # nuclear
21.30.-x
forces in hadronic systems and effective interactions
21.30.Fe
forces in vacuum # nuclear
21.30.Cb
forces, potential energy surfaces for collisions # interatomic and intermolecular potentials and
34.20.-b
forest # intergalactic matter; quasar absorption and emission-line systems; Lyman
98.62.Ra
form factors # electromagnetic
13.40.Gp
form factors; Compton scattering # atomic scattering, cross sections, and
32.80.Cy
formal properties of current algebras
11.40.Ex
formalism
03.65.Ca
formalism # Regge
11.55.Jy
formalism, Lagrangians, and variational principles # canonical
04.20.Fy
formalisms in classical mechanics
45.20.-d
formation # association, addition, insertion, cluster
82.30.Nr
formation # beam characteristics: profile,intensity, and power; spatial pattern
42.60.Jf
formation # diffusion; interface
68.35.Fx
formation # enthalpies of combustion, reaction, and
82.60.Cx
formation # image transmission and
42.68.Sq
formation # nanoscale pattern
81.16.Rf