membranes, bilayers, and vesicles
87.16.Dg
membranes, rods and strings
46.70.Hg
memories # non-volatile ferroelectric
85.50.Gk
memory devices # superconducting logic elements and
85.25.Hv
memory using giant magnetoresistance # magnetic
85.75.Bb
memory using magnetic tunnel junctions # magnetic
85.75.Dd
MEMS/NEMS) and devices # micro-electromechanical and nano-electromechanical systems (
85.85.+j
Mercury
96.30.Dz
mergers, collisions, and tidal interactions # galaxy
98.65.Fz
merit # performance characteristics of energy conversion systems; figure of
84.60.Bk
Meshkov, imprint, etc.) # implosion symmetry and hydrodynamic instability (Rayleigh - Taylor, Richtmyer -
52.57.Fg
meson production
13.60.Le
meson production thresholds (energies 400 MeV) # other reactions above
25.40.Ve
meson-induced and hyperon-induced reactions
25.80.-e
meson-meson interactions
13.75.Lb
mesonic atoms and molecules, hyperonic atoms and molecules
36.10.Gv
mesons
14.40.-n
mesons # bottom
14.40.Nd
mesons # charmed
14.40.Lb
mesons # decays of bottom
13.20.He
mesons # decays of bottom
13.25.Hw
mesons # decays of charmed
13.20.Fc
mesons # decays of charmed
13.25.Ft
mesons # decays of K
13.20.Eb
mesons # decays of K
13.25.Es
mesons # decays of other
13.20.Jf
mesons # decays of other
13.25.Jx
mesons # decays of pi
13.20.Cz
mesons # decays of pi
13.25.Cq
mesons # hadronic decays of
13.25.-k
mesons # leptonic and semileptonic decays of
13.20.-v
mesons # other strange
14.40.Ev
mesons # pi, K, and eta
14.40.AQ
mesons with S=C=0, mass < 2.5 GeV # other
14.40.Cs
mesons with S=C=B=0, mass 2.5 GeV (including quarkonia)
14.40.Gx
mesons, etc.) # ionizing radiations (ultraviolet, x-rays, y-rays, ions, electrons, positrons, neutrons, and
87.50.Gi
mesons, muons, and other unusual particles) # exotic atoms and molecules (containing
36.10.-k
mesoscopic systems # electronic transport in
73.23.-b
mesoscopic, and nanoscale systems # electron states and collective excitations in multilayers, quantum wells,
73.21.-b
mesoscopic, and nanoscale systems: structure and nonelectronic properties # low-dimensional,
68.65.-k
mesosphere, thermosphere, exosphere) # atmospheric structure, pressure, density, and temperature (stratosphere,
94.10.Dy
mesozoic
91.70.Dh
metabolic studies # nuclear medicine imaging, dosimetry, labeling,
87.58.-b
metal alloys # metallic surfaces and
68.47.De
metal contacts # metal-to-
73.40.Jn
metal poor, etc.) # population II stars (horizontal branch,
97.20.Tr
metal structures # metal-insulator-
73.40.Rw
metal structures # metal-semiconductor-
73.40.Sx
metal, semiconductor, and insulator surfaces # clean
79.60.Bm
metal-based composites # dispersion-reinforced, fiber-reinforced, and platelet-reinforced
81.05.Ni
metal-insulator transitions and other electronic transitions
71.30.+h
metal-insulator-metal structures
73.40.Rw
metal-insulator-semiconductor structures (including semiconductor-to-insulator)
73.40.Qv
metal-nonmetal contacts
73.40.Ns
metal-semiconductor-metal structures
73.40.Sx
metal-to-metal contacts
73.40.Jn
metal-vapor lasers # gas lasers including excimer and
42.55.Lt
metallic alloys # metals and
78.66.Bz
metallic glasses) # glasses (including
81.05.Kf
metallic glasses, glasses # amorphous semiconductors,
71.23.Cq
metallic surfaces and metal alloys
68.47.De
metallization, contacts, interconnects; device isolation
85.40.Ls
metallurgy, compaction, sintering, mechanical alloying, and granulation # powder processing: powder
81.20.Ev
metals # alkali and alkaline earth
71.20.Dg
metals # mass renormalization in
71.38.Cn
metals # spin polarized transport in
72.25.Ba
metals and alloys
61.82.Bg
metals and alloys
75.20.En
metals and alloys # electrical and thermal conduction in amorphous and liquid
72.15.Cz
metals and alloys # electrical and thermal conduction in crystalline
72.15.Eb
metals and alloys # electronic conduction in
72.15.-v
metals and alloys # liquid
61.25.Mv
metals and alloys # other
71.20.Gj
metals and alloys # other ferromagnetic
75.50.Cc
metals and alloys # phase diagrams of
81.30.Bx
metals and alloys # rare earth
71.20.Eh
metals and alloys # solid
78.30.Er
metals and alloys # transition
71.20.Be
metals and metallic alloys
78.66.Bz
metals and semiconductors and their alloys # electronic structure of liquid
71.22.+i
metals, and alloys # amorphous semiconductors,
61.43.Dq
metals, semimetals, and alloys
71.55.Ak
metals, semimetals, and alloys
78.40.Kc
metals, semimetals, and alloys
81.05.Bx
metals, semimetals, and alloys # self-diffusion in
66.30.Fq
metamagnetism, etc.) # magnetic phase boundaries (including magnetic transitions,
75.30.Kz
metastable phases
64.60.My
meteor streams # meteors, meteoroids, and
96.50.Kr
meteorites and terrestrial matter # cosmic-ray effects in
96.40.Vw
meteorites, micrometeorites, and tektites
96.50.Mt
meteoroids, and meteor streams # meteors,
96.50.Kr
meteorology
92.60.-e
meteors, meteoroids, and meteor streams
96.50.Kr
methodology # excited states:
71.15.Qe
methodology (Brillouin zone sampling, iterative diagonalization, pseudopotential construction) # computational
71.15.Dx
methodology (scattering methods, ASA, linearized methods) # basis sets (plane-wave, APS, LCAO, etc.) and related
71.15.Ap
metrological applications
42.62.Eh
metrology
06.20.-f
metrology, measurements, and laboratory procedures
06.
metrology, measurements, and laboratory procedures # other topics in
06.90.+v
metthods # perturbation and complex analysis
46.15.Ff
MeV) # other reactions above meson production thresholds (energies 400
25.40.Ve
MFM) # magnetic force microscopy (
68.37.Rt
MHD modes; kinetic modes # ideal and resistive
52.55.Tn
micellar solutions, vesicles, lamellae, amphiphilic systems, (hydrophilic and hydrophobic interactions) # surfactants,
82.70.Uv
micellar systems, associated polymers # surfactant and
83.80.Qr
micells # reactions in
82.33.Nq
micro-electromechanical and nano-electromechanical systems (MEMS/NEMS) and devices
85.85.+j
microcavity and microdisk lasers
42.55.Sa
microcircuit quality, noise, performance, and failure analysis
85.40.Qx
microcircuits; layout and modeling # computer-aided design of
85.40.Bh
microconfined liquid crystals: droplets, cylinders, randomly confined liquid crystals, polymer dispersed liquid crystals, and porous systems
61.30.Pq
microdisk lasers # microcavity and
42.55.Sa
microdosimetry
87.53.Rd
microelectronic circuits # superconducting
85.25.Na
microelectronic device characterization, design, and modeling # vacuum
85.45.Bz
microelectronics # electronic and magnetic devices;
85.
microelectronics # other topics in electronic and magnetic devices and
85.90.+h
microelectronics # vacuum
85.45.-w
microelectronics: LSI, VLSI, ULSI; integrated circuit fabrication technology
85.40.-e
microelectronics; thick films # hybrid
85.40.Xx
microemulsions # interfacial properties of
68.05.Gh
microgels # physical gels and
83.80.Kn
microgravity environments # growth in
81.10.Mx
microgravity environments # testing in
81.70.Ha
microinstabilities (ion-acoustic, two-stream, loss-cone, beam-plasma, drift, ion-cyclotron or electron-cyclotron, etc.)
52.35.Qz
microlensing techniques) # photography and photometry (including
95.75.De
micromachining
87.80.Mj
micromanipulators
87.80.Fe
micromechanical devices and systems
07.10.Cm
micrometeorites, and tektites # meteorites,
96.50.Mt
micrometers - 1 mm) # submillimeter (300
95.85.Fm
micrometers) # far infrared (10 -300
95.85.Gn
micrometers) # infrared (3-10
95.85.Hp
micrometers) # near infrared (0.75-3
95.85.Jq
microscopes # atomic force
07.79.Lh
microscopes # conventional optical
07.60.Pb
microscopes # friction force
07.79.Sp
microscopes # magnetic force
07.79.Pk
microscopes # near-field scanning optical
07.79.Fc
microscopes # scanning tunneling
07.79.Cz
microscopes # x-ray
07.85.Tt
microscopes and components # scanning probe
07.79.-v
microscopes; electron diffractometers # electron, positron, and ion
07.78.+s
microscopic aspects # nucleation and growth:
68.55.Ac
microscopic defects (voids, inclusions, etc.)
61.72.Qq
microscopic models and theories of liquid crystal structure # molecular and
61.30.Cz
microscopic techniques in biophysics and medical physics # spectroscopic and
87.64.-t
microscopy # acoustic force
68.37.Tj
microscopy # confocal
87.64.Tt
microscopy # electron
87.64.Ee
microscopy # field emission and field-ion
68.37.Vj
microscopy # multiphoton
87.64.Vv
microscopy # near-field scanning optical
87.64.Xx
microscopy # scanning Auger microscopy, photoelectron
68.37.Xy
microscopy # scanning tunneling and atomic force
87.64.Dz
microscopy # x-ray
68.37.Yz
microscopy (AFM) # atomic force
68.37.Ps
microscopy (including chemistry induced with STM) # scanning tunneling
68.37.Ef
microscopy (LEEM) # low energy electron
68.37.Nq
microscopy (MFM) # magnetic force
68.37.Rt
microscopy (SEM) (including EBIC) # scanning electron
68.37.Hk
microscopy (TEM) (including STEM, HRTEM, etc.) # transmission electron
68.37.Lp
microscopy and spectroscopy # near-field scanning
68.37.Uv
microscopy of surfaces, interfaces, and thin films
68.37.-d
microscopy, laser cooling, etc.) # atom manipulation (scanning probe
39.25.+k
microscopy, photoelectron microscopy # scanning Auger
68.37.Xy
microscopy, x-ray topography, etc.) # direct observation of dislocations and other defects (etch pits, decoration, electron
61.72.Ff
microscopy: bright-field, dark-field, phase contrast, DIC # light
87.64.Rr
microsecond to femtosecond) # high-speed techniques (
06.60.Jn
microstructure # defects and impurities in crystals;
61.72.-y
microstructure # fine structure and
92.10.Ns
microstructure and properties # treatment of materials and its effects on
81.40.-z
microstructures developed by solidification and solid-solid phase transformations # phase diagrams and
81.30.-t
microtubules, their networks, and supramolecular assemblies # filaments,
87.16.Ka
microwave ( >1 mm) # radio,
95.85.Bh
microwave (including millimeter wave) technology # radiowave and
84.40.-x
microwave and radio-frequency interactions
78.70.Gq
microwave and radiowave instruments and equipment # infrared, submillimeter wave,
07.57.-c
microwave and radiowave spectrometers; magnetic resonance spectrometers, auxiliary equipment, and techniques # submillimeter wave,
07.57.Pt
microwave circuits
84.40.Dc
microwave integrated electronics
84.40.Lj
microwave measurements # radio-frequency and
52.70.Gw
microwave optical double resonance) # multiple resonances (including double and higher-order resonance processes, such as double nuclear magnetic resonance, electron double resonance, and
33.40.+f
microwave radiation (power lines) # radio frequency and
87.50.Jk
microwave spectra # radio-frequency and
33.20.Bx
microwave technology, and direct energy conversion and storage # other topics in electronics, radiowave and
84.90.+a
microwave technology; direct energy conversion and storage # electronics; radiowave and
84.
microwave tubes (e.g., klystrons, magnetrons, traveling-wave, backward-wave tubes, etc.)
84.40.Fe
microwave, and infrared spectra # radio-frequency,
32.30.Bv
microwave, and radiowave receivers and detectors # bolometers; infrared, submillimeter wave,
07.57.Kp
microwave, and radiowave sources # infrared, submillimeter wave,
07.57.Hm
microwaves; ECR, LH, collisional heating # plasma heating by
52.50.Sw
migration in zeolites # measurements and modeling of molecule
82.75.Jn
military technology and weapons systems; arms control
89.20.Dd
Milky_Way # associations of stars (OB, T, R) in the
98.20.Af
Milky_Way # globular clusters in the
98.20.Gm
Milky_Way # interstellar medium (ISM) and nebulae in
98.38.-j
Milky_Way # open clusters in the
98.20.Di
Milky_Way galaxy # characteristics and properties of the
98.35.-a
millimeter wave detectors # superconducting infrared, submillimeter and
85.25.Pb
millimeter wave) technology # radiowave and microwave (including
84.40.-x
milling # machining,
81.20.Wk
mineral occurrences and deposits
91.65.Rg
mineralogy, and petrology # geophysical aspects of geology,
91.65.-n
mineralogy, petrology, and atmosphere # features, landmarks,
96.20.Dt
minerals # physical properties of rocks and
91.60.-x
minisuperspace models # lower dimensional models;
04.60.Kz
minor planets) # asteroids (
96.30.Ys
Miras) and semiregulars # long-period variables (
97.30.Jm
mirror, ballooning, tearing, trapped-particle, flute, Rayleigh - Taylor, etc.) # macroinstabilities (hydromagnetic, e.g., kink, fire-hose,
52.35.Py
mirrors # lenses, prisms and
42.79.Bh
mirrors, gas dynamic traps # magnetic
52.55.Jd
mirrors, gratings, and detectors # x-ray and gamma-ray sources,
07.85.Fv
miscellaneous theoretical ideas and models
12.90.+b
mixed conductivity and conductivity transitions
72.60.+g
mixed systems; liquid 3He, 4He mixtures
67.60.-g
mixers, limiters, and compressors # modulators and demodulators; discriminators, comparators,
84.30.Qi
mixing # neutrino mass and
14.60.Pq
mixing # quark and lepton masses and
12.15.Ff
mixing and blending
83.50.Xa
mixing ratios # multipole
23.20.Gq
mixing, and photorefractive effect # phase conjugation, optical
42.65.Hw
mixing, etc.) # electronic excitation and ionization of molecules; intermediate molecular states (including lifetimes, state
34.50.Gb
mixing, segregation and stratification # granular flow:
45.70.Mg
mixing, turbulence, and fallout # convection, diffusion,
94.10.Lf
mixing; phase separation # solubility, segregation, and
64.75.+g
mixtures # ions in liquid 3He-4He
67.60.Js
mixtures # mixed systems; liquid 3He, 4He
67.60.-g
mm) # radio, microwave ( >1
95.85.Bh
mm) # submillimeter (300 micrometers - 1
95.85.Fm
mobility edges; hopping transport
72.20.Ee
mobility, etc.) # electrical properties (ionization, breakdown, electron and ion
51.50.+v
mobility; piezoresistance # low-field transport and
72.20.Fr
MOCVD and other vapor deposition methods # chemistry of
82.33.Ya
MOCVD, etc.) # chemical vapor deposition (including plasma-enhanced CVD,
81.15.Gh
mode coupling, ponderomotive effects, etc.) # nonlinear phenomena: waves, wave propagation, and other interactions (including parametric effects,
52.35.Mw
mode locking # modulation, tuning, and
42.60.Fc
model # bag
12.39.Ba
model # nonrelativistic quark
12.39.Jh
model # relativistic quark
12.39.Ki
model # shell
21.60.Cs
model calculations (including Thomas - Fermi and Thomas - Fermi - Dirac models) # statistical
31.15.Bs
model Higgs bosons # non-standard-
14.80.Cp
model neutrinos, right-handed neutrinos, etc. # non-standard-
14.60.St
model see also 12.10.-g unified field theories and models # models beyond the standard
12.60.-i
model systems # excited states and pairing interactions in
71.10.Li
model systems # non-Fermi-liquid ground states, electron phase diagrams and phase transitions in
71.10.Hf
model systems # order-disorder transformations; statistical mechanics of
64.60.Cn
model, etc.) # lattice fermion models (Hubbard
71.10.Fd
modeling # computer-aided design of microcircuits; layout and
85.40.Bh
modeling # magnetic device characterization, design, and
85.70.Ay
modeling # optoelectronic device characterization, design, and
85.60.Bt
modeling # semiconductor-device characterization, design, and
85.30.De
modeling # superconducting device characterization, design, and
85.25.Am
modeling # synthesis, structure determination, structure
82.75.Fq
modeling # theory and
73.43.Cd
modeling # theory of crystal structure, crystal symmetry; calculations and
61.50.Ah
modeling # turbulence simulation and
47.27.Eq
modeling # vacuum microelectronic device characterization, design, and
85.45.Bz
modeling and simulation # computer
07.05.Tp
modeling and simulation # observation and data reduction techniques; computer
95.75.-z
modeling of molecule migration in zeolites # measurements and
82.75.Jn
modeling: serial-addition models, computer simulation # structural
61.43.Bn
modeling; computer simulation # theory and
87.15.Aa
modeling; computer simulation # theory and
87.16.Ac
modeling; computer simulation # theory and
87.17.Aa
modeling; general theory
92.40.Cy
modeling; simulation # computational
82.20.Wt
models # band and itinerant
75.10.Lp
models # classical spin
75.10.Hk
models # cluster
21.60.Gx
models # collective
21.60.Ev
models # collision theories; trajectory
82.20.Fd
models # compactification and four-dimensional
11.25.Mj
models # composite
12.60.Rc
models # coupled-channel and distorted-wave
24.10.Eq
models # Fermi-liquid theory and other phenomenological
71.10.Ay
models # hydrodynamic
24.10.Nz
models # lower dimensional models; minisuperspace
04.60.Kz
models # miscellaneous theoretical ideas and
12.90.+b
models # models beyond the standard model see also 12.10.-g unified field theories and
12.60.-i
models # Monte_Carlo
21.60.Ka
models # nonlinear or nonlocal theories and
11.10.Lm
models # numerical simulations of chaotic
05.45.Pq
models # optical and diffraction
24.10.Ht
models # phenomenological quark
12.39.-x
models # phenomenology and two-fluid
67.40.Bz
models # potential
12.39.Pn
models # quantized spin
75.10.Jm
models # Regge theory, duality, absorptive/optical
12.40.Nn
models # relativistic
24.10.Jv
models # spin-glass and other random
75.10.Nr