01. COMMUNICATION, EDUCATION, HISTORY, AND PHILOSOPHY
01. Communication, education, history, and philosophy
01.10.-m Announcements, news, and organizational activities
01.10.Cr Announcements, news, and awards
01.10.Fv Conferences, lectures, and institutes
01.10.Hx Physics organizational activities
01.30.-y Physics literature and publications
01.30.Bb Publications of lectures (advanced institutes, summer schools,
etc.)
01.30.Cc Conference proceedings
01.30.Ee Monographs and collections
01.30.Kj Handbooks, dictionaries, tables, and data compilations
01.30.Mm Textbooks for graduates and researchers
01.30.Pp Textbooks for undergraduates
01.30.Rr Surveys and tutorial papers; resource letters
01.30.Tt Bibliographies
01.40.-d Education
01.40.Di Course design and evaluation
01.40.Ej Science in elementary and secondary school
01.40.Gm Curricula; teaching methods, strategies, and evaluation
01.40.Jp Teacher training
01.50.-i Educational aids
01.50.Fr Audio and visual aids, films
01.50.Ht Instructional computer use
01.50.Kw Testing theory and techniques
01.50.My Demonstration experiments and apparatus
01.50.Pa Laboratory experiments and apparatus
01.50.Qb Laboratory course design, organization, and evaluation
01.50.Te Buildings and facilities
01.50.Wg Physics of toys
01.52.+r National and international laboratory facilities
01.55.+b General physics
01.60.+q Biographical, historical, and personal notes
01.65.+g History of science
01.70.+w Philosophy of science
01.75.+m Science and society
01.80.+b Physics of sports
01.90.+g Other topics of general interest
02. Mathematical methods in physics
02.10.-v Logic, set theory, and algebra
02.10.By Logic and foundations
02.10.Cz Set theory
02.10.Eb Combinatorics
02.10.Gd Order, lattices, and ordered algebraic structures
02.10.Jf General mathematical systems
02.10.Lh Number theory
02.10.Nj Algebraic number theory, field theory, and polynomials
02.10.Pk Commutative rings and algebras
02.10.Rn Algebraic geometry
02.10.Sp Linear and multilinear algebra; matrix theory (finite and
infinite)
02.10.Tq Associative rings and algebras
02.10.Vr Nonassociative rings and algebras
02.10.Ws Category theory and homological algebra
02.20.-a Group theory
(for algebraic methods in quantum mechanics, see 03.65.F; for
symmetries in elementary particle physics, see 11.30)
02.20.Df Finite groups
02.20.Fh Infinite groups
02.20.Hj Classical linear algebraic groups
02.20.Km Abelian groups
02.20.Mp Semigroups
02.20.Nq Topological groups, general
02.20.Qs General properties, structure, and representation of Lie groups
02.20.Rt Discrete subgroups of Lie groups
02.20.Sv Lie algebras of Lie groups
02.20.Tw Infinite-dimensional Lie groups
02.30.-f Function theory, analysis
02.30.Bi Real functions
02.30.Cj Measure and integration
02.30.Dk Functions of a complex variable
02.30.Em Potential theory
02.30.Fn Several complex variables and analytic spaces
02.30.Gp Special functions
02.30.Hq Ordinary differential equations
02.30.Jr Partial differential equations
02.30.Ks Delay and functional equations
02.30.Lt Sequences, series, and summability
02.30.Mv Approximations and expansions
02.30.Nw Fourier analysis
02.30.Px Abstract harmonic analysis
02.30.Qy Integral transforms and operational calculus
02.30.Rz Integral equations
02.30.Sa Functional analysis
02.30.Tb Operator theory
02.30.Wd Calculus of variations and optimal control
02.40.-k Geometry, differential geometry, and topology
(see also 04 Relativity and gravitation)
02.40.Dr Euclidean and projective geometries
02.40.Ft Convex sets and geometric inequalities
02.40.Hw Classical differential geometry
02.40.Ky Riemannian geometries
02.40.Ma Global differential geometry
02.40.Pc General topology
02.40.Re Algebraic topology
02.40.Sf Manifolds and cell complexes
02.40.Vh Global analysis and analysis on manifolds
02.50.-r Probability theory, stochastic processes, and statistics
(see also 05 Statistical physics)
02.50.Cw Probability theory
02.50.Ey Stochastic processes
02.50.Fz Stochastic analysis
02.50.Ga Markov processes
02.50.Hb Queuing theory
02.50.Kd Foundations of statistics; sufficiency
02.50.Le Decision theory and game theory
02.50.Ng Distribution theory and Monte Carlo studies
02.50.Ph Parametric inference
02.50.Rj Nonparametric inference
02.50.Sk Multivariate analysis
02.50.Vn Linear inference
02.50.Wp Inference from stochastic processes
02.60.-x Numerical approximation and analysis
02.60.Cb Numerical simulation; solution of equations
02.60.Dc Numerical linear algebra
02.60.Ed Interpolation; curve fitting
02.60.Gf Algorithms for functional approximation
02.60.Jh Numerical differentiation and integration
02.60.Lj Ordinary and partial differential equations; boundary value
problems
02.60.Nm Integral and integrodifferential equations
02.60.Pn Numerical optimization
02.70.-c Computational techniques
02.70.Bf Finite-difference methods
02.70.Dh Finite-element and Galerkin methods
02.70.Fj Finite-volume methods
02.70.Hm Spectral methods
02.70.Jn Collocation methods
02.70.Lq Monte Carlo and statistical methods
02.70.Ns Molecular dynamics and particle methods
02.70.Pt Boundary-integral methods
02.70.Rw Other computational methods
02.90.+p Other topics in mathematical methods in physics
03. Classical and quantum physics: mechanics and fields
03.20.+i Classical mechanics of discrete systems: general mathematical
aspects
(for applied aspects of classical mechanics of discrete systems,
see 46.10)
03.30.+p Special relativity
03.40.-t Classical mechanics of continuous media: general mathematical
aspects
03.40.Dz Mathematical theory of elasticity
(see also 83.10 Continuum mechanics, 46.30 Structural mechanics
of shells, plates, and beams, 62.20.D Elasticity of solids)
03.40.Gc Fluid dynamics: general mathematical aspects
(see also 47 Fluid dynamics)
03.40.Kf Waves and wave propagation: general mathematical aspects
(see also 62.30 Mechanical and elastic waves, 43.20 General
linear acoustics, 83.50.T, V--in rheology)
03.50.-z Classical field theory
03.50.De Maxwell theory: general mathematical aspects
(for applied classical electrodynamics, see 41)
03.50.Kk Other special classical field theories
03.65.-w Quantum mechanics
(see also 05.30 Quantum statistical mechanics)
03.65.Bz Foundations, theory of measurement, miscellaneous theories
(including Aharonov-Bohm effect, Bell inequalities, Berry's
phase)
03.65.Ca Formalism
03.65.Db Functional analytical methods
03.65.Fd Algebraic methods
(see also 02.20 Group theory)
03.65.Ge Solutions of wave equations: bound states
03.65.Nk Nonrelativistic scattering theory
(see also 03.80 General theory of scattering)
03.65.Pm Relativistic wave equations
03.65.Sq Semiclassical theories and applications
03.70.+k Theory of quantized fields
(see also 11.10 Field theory)
03.75.-b Matter waves
(for atom interferometry techniques, see 39.20--in atomic and
molecular physics)
03.75.Be Atom and neutron optics
03.75.Dg Atom and neutron interferometry
03.75.Fi Phase coherent atomic ensemble (Bose condensation)
03.80.+r General theory of scattering
(see also 03.65.N Nonrelativistic scattering theory, 11.55 S-
matrix theory; analytic structure of amplitudes, and 11.80
Relativistic scattering theory)
04. General relativity and gravitation
(for relativistic cosmology, see 98.80.H)
...... Special relativity, see 03.30
04.20.-q Classical general relativity
(see also 02.40 Geometry and topology)
04.20.Cv Fundamental problems and general formalism
04.20.Dw Singularities and cosmic censorship
04.20.Ex Initial value problem, existence and uniqueness of solutions
04.20.Fy Canonical formalism, Lagrangians, and variational principles
04.20.Gz Spacetime topology, causal structure, spinor structure
04.20.Ha Asymptotic structure
04.20.Jb Exact solutions
04.25.-g Approximation methods; equations of motion
04.25.Dm Numerical relativity
04.25.Nx Post-Newtonian approximation; perturbation theory; related
approximations
04.30.-w Gravitational waves: theory
04.30.Db Wave generation and sources
04.30.Nk Wave propagation and interactions
04.40.-b Self-gravitating systems; continuous media and classical fields
in curved spacetime
04.40.Dg Relativistic stars: structure, stability, and oscillations
(for relativistic aspects of late stages of star evolution, see
97.60)
04.40.Nr Einstein-Maxwell spacetimes, spacetimes with fluids, radiation or
classical fields
04.50.+h Gravity in more than four dimensions, Kaluza-Klein theory,
unified field theories; alternative theories of gravity
(see also 11.25.M Compactification and four-dimensional models)
04.60.-m Quantum gravity
(see also 98.80.H Quantum cosmology)
04.60.Ds Canonical quantization
04.60.Gw Covariant and sum-over-histories quantization
04.60.Kz Lower dimensional models; minisuperspace models
04.60.Nc Lattice and discrete methods
04.62.+v Quantum field theory in curved spacetime
04.65.+e Supergravity
(see also 12.60.J Supersymmetric models)
04.70.-s Physics of black holes
(see also 97.60.L--in astronomy)
04.70.Bw Classical black holes
04.70.Dy Quantum aspects of black holes, evaporation, thermodynamics
04.80.-y Experimental studies of gravity
04.80.Cc Experimental tests of gravitational theories
04.80.Nn Gravitational wave detectors and experiments
(see also 95.55.Y--in astronomy)
04.90.+e Other topics in general relativity and gravitation
05. Statistical physics and thermodynamics
(see also 02.50 Probability theory, stochastic processes, and
statistics)
05.20.-y Statistical mechanics
05.20.Dd Kinetic theory
05.20.Gg Classical ensemble theory
05.30.-d Quantum statistical mechanics
05.30.Ch Quantum ensemble theory
05.30.Fk Fermion systems and electron gas
05.30.Jp Boson systems
05.40.+j Fluctuation phenomena, random processes, and Brownian motion
05.45.+b Theory and models of chaotic systems
05.50.+q Lattice theory and statistics; Ising problems
(see also 64.60.C Order-disorder transformations and statistical
mechanics of model systems and 75.10.H Classical spin models)
05.60.+w Transport processes: theory
05.70.-a Thermodynamics
(see also 64 Equations of state, phase equilibria, and phase
transitions, and 65 Thermal properties of condensed matter; for
chemical thermodynamics, see 82.60)
05.70.Ce Thermodynamic functions and equations of state
05.70.Fh Phase transitions: general aspects
05.70.Jk Critical point phenomena
05.70.Ln Nonequilibrium thermodynamics, irreversible processes
(see also 82.20.M Nonequilibrium kinetics, and 82.40.B
Oscillations, chaos, and bifurcations in homogeneous
nonequilibrium reactors)
05.90.+m Other topics in statistical physics and thermodynamics
06. Metrology, measurements, and laboratory procedures
06.20.-f Metrology
06.20.Dk Measurement and error theory
06.20.Fn Units and standards
06.20.Jr Determination of fundamental constants
06.30.-k Measurements common to several branches of physics and astronomy
06.30.Bp Spatial dimensions (e.g., position, lengths, volume, angles,
displacements, including nanometer-scale displacements)
06.30.Dr Mass and density
06.30.Ft Time and frequency
06.30.Gv Velocity, acceleration, and rotation
06.60.-c Laboratory procedures
06.60.Ei Sample preparation (including design of sample holders)
06.60.Jn High-speed techniques (microsecond to femtosecond)
06.60.Mr Testing and inspecting procedures
06.60.Sx Positioning and alignment; manipulating, remote handling
06.60.Vz Workshop procedures (welding, machining, lubrication, bearings,
etc.)
06.60.Wa Laboratory safety procedures
06.60.Yb Other laboratory procedures
...... National and international laboratory facilities, see 01.52
06.90.+v Other topics in metrology, measurements, and laboratory
procedures
07. Instruments, apparatus, components, and techniques common to
several branches of physics and astronomy
(see also each subdiscipline for specialized instrumentation and
techniques)
07.05.-t Computers in experimental physics
...... Computer in physics education, see 01.50.H
...... Computational techniques, see 02.70--in mathematical methods in
physics
...... Applications to optical system design, see 42.15.E
07.05.Bx Computer systems: hardware, operating systems, computer
languages, and utilities
07.05.Dz Control systems
07.05.Fb Design of experiments
07.05.Hd Data acquisition: hardware and software
07.05.Kf Data analysis: algorithms and implementation; data management
07.05.Mh Neural networks, fuzzy logic, artificial intelligence
07.05.Pj Image processing
(see also 42.30.V in optics)
07.05.Rm Data presentation and visualization: algorithms and
implementation
07.05.Tp Computer modeling and simulation
07.05.Wr Computer interfaces
07.05.Ys Other topics in computers in experimental physics
07.07.-a General equipment and techniques
07.07.Df Sensors (chemical, optical, electrical, movement, gas, etc.);
remote sensing
07.07.Hj Display and recording equipment, oscilloscopes, TV cameras, etc.
07.07.Mp Transducers
07.07.Tw Servo and control equipment; robots
07.07.Vx Hygrometers
07.07.Yz Other equipment and techniques
07.10.-h Mechanical instruments, equipment, and techniques
07.10.Cm Micromechanical devices and systems
07.10.Fq Vibration isolation
07.10.Lw Balance systems, tensile machines, etc.
07.10.Pz Instruments for strain, force, and torque
07.10.Yg Other mechanical instruments, equipment, and techniques
(including pendulum, gyroscopes, centrifuges, etc.)
07.20.-n Thermal instruments, apparatus, and techniques
07.20.Dt Thermometry
07.20.Fw Calorimetry
07.20.Hy Furnaces; heaters
07.20.Ka High-temperature techniques and instrumentation; pyrometry
07.20.Mc Cryogenics, refrigerators; low-temperature techniques
07.20.Pe Heat engines; heat pumps
07.20.Ym Other thermal instruments and techniques
07.30.-t Vacuum apparatus and techniques
(see also 47.45 Rarefied gas dynamics)
07.30.Bx Degasification, residual gas
07.30.Cy Vacuum pumps
07.30.Dz Vacuum gauges
07.30.Hd Vacuum testing methods; leak detectors
07.30.Kf Vacuum chambers, auxiliary apparatus, and materials
07.35.+k High-pressure apparatus and techniques; shock tubes; diamond
anvil cells
07.50.-e Electrical and electronic components, instruments, and techniques
07.50.Ek Circuits and circuit components
(see also 84.30 Electronic circuits and 84.32 Passive circuit
components)
07.50.Hp Electrical noise and shielding, interference
07.50.Ls Electrometers
07.50.Qx Signal processing electronics
(see also 84.40.U--in radiowave and microwave technology)
07.50.Yd Other electrical and electronic components, instruments, and
techniques
07.55.-w Magnetic components, instruments and techniques
07.55.Db Generation of magnetic fields; magnets
07.55.Ge Magnetometers for magnetic field measurements
07.55.Jg Magnetometers for susceptibility, magnetic moment, and
magnetization measurements
07.55.Nk Magnetic shielding in instruments
07.55.Yv Other magnetic instruments and techniques
07.57.-c Infrared, submillimeter wave, microwave and radiowave
instruments, equipment and techniques
(for infrared and radio telescopes, see 95.55)
07.57.Hm Infrared, submillimeter wave, microwave, and radiowave sources
07.57.Kp Bolometers; infrared, submillimeter wave, microwave, and
radiowave receivers and detectors
(see also 85.60.G Photodetectors)
07.57.Pt Submillimeter wave, microwave and radiowave spectrometers;
magnetic resonance spectrometers, auxiliary equipment, and
techniques
07.57.Ty Infrared spectrometers, auxiliary equipment, and techniques
07.57.Yb Other infrared, submillimeter wave, microwave, and radiowave
instruments, equipment, and techniques
07.60.-j Optical instruments, equipment, and techniques
...... Optical sources, see 42.72
...... Optical elements, devices, and systems 42.79
...... Optoelectric devices 85.60
...... Optical telescopes, see 95.55
07.60.Dq Photometers, radiometers, and colorimeters
07.60.Fs Polarimeters and ellipsometers
07.60.Hv Refractometers and reflectometers
07.60.Ly Interferometers
07.60.Pb Conventional optical microscopes
(for near-field scanning optical microscopes, see 07.79.B)
07.60.Rd Visible and ultraviolet spectrometers
07.60.Vg Fiber-optic instruments
(see also 42.81 Fiber optics)
07.60.Yi Other optical instruments, equipment and techniques
07.64.+z Acoustic instruments, equipment, and techniques
(see also 43.58--in acoustics appendix)
07.68.+m Photography, photographic instruments and techniques; xerography
07.75.+h Mass spectrometers and related techniques
07.77.-n Atomic, molecular, and charged-particle sources and detectors
07.77.Gx Atomic and molecular beam sources and detectors
07.77.Ka Charged-particle beam sources and detectors
07.78.+s Electron, positron, and ion microscopes, electron
diffractometers, and related techniques
07.79.-v Scanning probe microscopes, components, and techniques
07.79.Cz Scanning tunneling microscopes
07.79.Fc Near-field scanning optical microscopes
07.79.Lh Atomic force microscopes
07.79.Pk Magnetic force microscopes
07.79.Sp Friction force microscopes
07.81.+a Electron, ion spectrometers, and related techniques
07.85.-m X- and gamma-ray instruments and techniques
(for x- and gamma-ray telescopes, see 95.55.K)
07.85.Fv X- and gamma-ray sources, mirrors, gratings, and detectors
07.85.Jy Diffractometers
07.85.Nc X-ray and gamma-ray spectrometers
07.85.Qe Synchrotron radiation instrumentation
07.85.Yk Other x-ray and gamma-ray instruments and techniques
07.87.+v Spaceborne and space research instruments, apparatus, and
components (satellites, space vehicles, etc.)
07.88.+y Instruments for environmental pollution measurements
07.89.+b Environmental effects on instruments (e.g., radiation and
pollution effects)
07.90.+c Other topics in instruments, apparatus, components, and
techniques common to several branches of physics and astronomy
11. General theory of fields and particles
(see also 03.65 Quantum mechanics, 03.70 Theory of quantized
fields)
11.10.-z Field theory
(for gauge field theories, see 11.15)
11.10.Cd Axiomatic approach
11.10.Ef Lagrangian and Hamiltonian approach
11.10.Gh Renormalization
11.10.Hi Renormalization group evolution of parameters
11.10.Jj Asymptotic problems and properties
11.10.Kk Field theories in dimensions other than four
(see also 04.50 Gravity in more than four dimensions; 04.60.K
Lower dimensional models in quantum gravity)
11.10.Lm Nonlinear or nonlocal theories and models
(see also 11.27 Extended classical solutions; cosmic strings,
domain walls, texture)
11.10.St Bound and unstable states; Bethe-Salpeter equations
11.10.Wx Finite-temperature field theory
...... Relativistic wave equations, see 03.65.P
11.15.-q Gauge field theories
11.15.Bt General properties of perturbation theory
11.15.Ex Spontaneous breaking of gauge symmetries
11.15.Ha Lattice gauge theory
(see also 12.38.G Lattice QCD calculations)
11.15.Kc Classical and semiclassical techniques
11.15.Me Strong-coupling expansions
11.15.Pg Expansions for large numbers of components (e.g.,
1/N[subon]c[suboff] expansions)
11.15.Tk Other nonperturbative techniques
11.25.-w Theory of fundamental strings
11.25.Db Properties of perturbation theory
11.25.Hf Conformal field theory, algebraic structures
11.25.Mj Compactification and four-dimensional models
11.25.Pm Noncritical string theory
11.25.Sq Nonperturbative techniques; string field theory
11.27.+d Extended classical solutions; cosmic strings, domain walls,
texture
(see also 98.80.C in cosmology)
11.30.-j Symmetry and conservation laws
(see also 02.20 Group theory)
11.30.Cp Lorentz and Poincare invariance
11.30.Er Charge conjugation, parity, time reversal, and other discrete
symmetries
11.30.Fs Global symmetries (e.g., baryon number, lepton number)
11.30.Hv Flavor symmetries
11.30.Ly Other internal and higher symmetries
11.30.Na Nonlinear and dynamical symmetries (spectrum-generating
symmetries)
11.30.Pb Supersymmetry
(see also 12.60.J Supersymmetric models)
11.30.Qc Spontaneous and radiative symmetry breaking
11.30.Rd Chiral symmetries
11.40.-q Currents and their properties
11.40.Dw General theory of currents
11.40.Ex Formal properties of current algebras
(see also 12.39.F Chiral Lagrangians)
11.40.Ha Partially conserved axial-vector currents
11.55.-m S-matrix theory; analytic structure of amplitudes
11.55.Bq Analytic properties of S matrix
11.55.Ds Exact S matrices
11.55.Fv Dispersion relations
11.55.Hx Sum rules
11.55.Jy Regge formalism
(see also 12.40.N in strong interactions)
11.80.-m Relativistic scattering theory
(see also 03.80 General theory of scattering)
11.80.Cr Kinematical properties (helicity and invariant amplitudes,
kinematic singularities, etc.)
11.80.Et Partial-wave analysis
11.80.Fv Approximations (eikonal approximation, variational principles,
etc.)
11.80.Gw Multichannel scattering
11.80.Jy Many-body scattering and Faddeev equation
11.80.La Multiple scattering
11.90.+t Other topics in general field and particle theory
12. Specific theories and interaction models; particle systematics
12.10.-g Unified field theories and models
(see also 04.50--in general relativity and gravitation, 11.25.M
Compactification and four-dimensional models)
12.10.Dm Unified theories and models of strong and electroweak
interactions
12.10.Kt Unification of couplings; mass relations
12.15.-y Electroweak interactions
...... for extensions of gauge or Higgs sector, see 12.60.C or 12.60.F
12.15.Ff Quark and lepton masses and mixing
(see also 14.60.P Neutrino mass and mixing)
12.15.Hh Determination of Kobayashi-Maskawa matrix elements
12.15.Ji Applications of electroweak models to specific processes
12.15.Lk Electroweak radiative corrections
(see also 13.40.K Electromagnetic corrections to strong- and
weak-interaction processes)
12.15.Mm Neutral currents
12.20.-m Quantum electrodynamics
12.20.Ds Specific calculations
12.20.Fv Experimental tests
12.38.-t Quantum chromodynamics
...... see also 24.85 Quarks, gluons, and QCD in nuclei and nuclear
processes
12.38.Aw General properties of QCD (dynamics, confinement, etc.)
12.38.Bx Perturbative calculations
12.38.Cy Summation of perturbation theory
12.38.Gc Lattice QCD calculations
(see also 11.15.H Lattice gauge theory)
12.38.Lg Other nonperturbative calculations
12.38.Mh Quark-gluon plasma
12.38.Qk Experimental tests
12.39.-x Phenomenological quark models
12.39.Ba Bag model
12.39.Dc Skyrmions
12.39.Fe Chiral Lagrangians
12.39.Hg Heavy quark effective theory
12.39.Jh Nonrelativistic quark model
12.39.Ki Relativistic quark model
12.39.Mk Glueball and nonstandard multi-quark/gluon states
12.39.Pn Potential models
12.40.-y Other models for strong interactions
12.40.Ee Statistical models
12.40.Nn Regge theory, duality, absorptive/optical models
(see also 11.55.J Regge formalism)
12.40.Vv Vector-meson dominance
12.40.Yx Hadron mass models and calculations
12.60.-i Models beyond the standard model
...... see also 12.10 Unified field theories and models
12.60.Cn Extensions of electroweak gauge sector
12.60.Fr Extensions of electroweak Higgs sector
12.60.Jv Supersymmetric models
(see also 04.65 Supergravity)
12.60.Nz Technicolor models
12.60.Rc Composite models
12.90.+b Miscellaneous theoretical ideas and models
13. Specific reactions and phenomenology
13.10.+q Weak and electromagnetic interactions of leptons
(see also 13.35 Decays of leptons)
13.15.+g Neutrino interactions
(for neutrino-lepton interactions, see 13.10)
13.20.-v Leptonic and semileptonic decays of mesons
13.20.Cz Decays of pi mesons
13.20.Eb Decays of K mesons
13.20.Fc Decays of charmed mesons
13.20.Gd Decays of J/psi, upsilon, and other quarkonia
13.20.He Decays of bottom mesons
13.20.Jf Decays of other mesons
13.25.-k Hadronic decays of mesons
13.25.Cq Decays of pi mesons
13.25.Es Decays of K mesons
13.25.Ft Decays of charmed mesons
13.25.Gv Decays of J/psi, upsilon, and other quarkonia
13.25.Hw Decays of bottom mesons
13.25.Jx Decays of other mesons
13.30.-a Decays of baryons
13.30.Ce Leptonic and semileptonic decays
13.30.Eg Hadronic decays
13.35.-r Decays of leptons
13.35.Bv Decays of muons
13.35.Dx Decays of taus
13.35.Hb Decays of heavy neutrinos
13.38.-b Decays of intermediate bosons
13.38.Be Decays of W bosons
13.38.Dg Decays of Z bosons
13.40.-f Electromagnetic processes and properties
(see also 13.10 Weak and electromagnetic interactions of leptons)
13.40.Dk Electromagnetic mass differences
13.40.Em Electric and magnetic moments
13.40.Gp Electromagnetic form factors
13.40.Hq Electromagnetic decays
13.40.Ks Electromagnetic corrections to strong- and weak-interaction
processes
13.60.-r Photon and charged-lepton interactions with hadrons
(for neutrino interactions, see 13.15)
13.60.Fz Elastic and Compton scattering
13.60.Hb Total and inclusive cross sections (including deep-inelastic
processes)
13.60.Le Meson production
13.60.Rj Baryon production
13.65.+i Hadron production by electron-positron collisions
13.75.-n Hadron-induced low- and intermediate-energy reactions and
scattering (energy <= 10 GeV)
(for higher energies, see 13.85)
13.75.Cs Nucleon-nucleon interactions (including antinucleons, deuterons,
etc.)
(for N-N interactions in nuclei, see 21.30)
13.75.Ev Hyperon-nucleon interactions
13.75.Gx Pion-baryon interactions
13.75.Jz Kaon-baryon interactions
13.75.Lb Meson-meson interactions
13.85.-t Hadron-induced high- and super-high-energy interactions (energy >
10 GeV)
(for low energies, see 13.75)
13.85.Dz Elastic scattering
13.85.Fb Inelastic scattering: two-particle final states
13.85.Hd Inelastic scattering: many-particle final states
13.85.Lg Total cross sections
13.85.Ni Inclusive production with identified hadrons
13.85.Qk Inclusive production with identified leptons, photons, or other
nonhadronic particles
13.85.Rm Limits on production of particles
13.85.Tp Cosmic-ray interactions
(see also 96.40 Cosmic rays)
13.87.-a Jets in large-Q[supon]2[supoff] scattering
13.87.Ce Production
13.87.Fh Fragmentation into hadrons
13.88.+e Polarization in interactions and scattering
13.90.+i Other topics in specific reactions and phenomenology of
elementary particles
14. Properties of specific particles
14.20.-c Baryons (including antiparticles)
14.20.Dh Protons and neutrons
14.20.Gk Baryon resonances with S=0
14.20.Jn Hyperons
14.20.Lq Charmed baryons
14.20.Mr Bottom baryons
14.20.Pt Dibaryons
14.40.-n Mesons
14.40.Aq pi, K, and eta mesons
14.40.Cs Other mesons with S=C=0, mass < 2.5 GeV
14.40.Ev Other strange mesons
14.40.Gx Mesons with S=C=B=0, mass > 2.5 GeV (including quarkonia)
14.40.Lb Charmed mesons
14.40.Nd Bottom mesons
14.60.-z Leptons
14.60.Cd Electrons (including positrons)
14.60.Ef Muons
14.60.Fg Taus
14.60.Hi Other charged heavy leptons
14.60.Lm Ordinary neutrinos (nu[subon]e[suboff], nu[subon]mu[suboff],
nu[subon]tau[suboff])
14.60.Pq Neutrino mass and mixing
(see also 12.15.F Quark and lepton masses and mixing)
14.60.St Non-standard-model neutrinos, right-handed neutrinos, etc.
14.65.-q Quarks
14.65.Bt Light quarks
14.65.Dw Charmed quarks
14.65.Fy Bottom quarks
14.65.Ha Top quarks
14.70.-e Gauge bosons
14.70.Bh Photons
14.70.Dj Gluons
14.70.Fm W bosons
14.70.Hp Z bosons
14.70.Pw Other gauge bosons
14.80.-j Other particles (including hypothetical)
14.80.Bn Standard-model Higgs bosons
14.80.Cp Non-standard-model Higgs bosons
14.80.Hv Magnetic monopoles
14.80.Ly Supersymmetric partners of known particles
14.80.Mz Axions and other Nambu-Goldstone bosons (Majorons, familons,
etc.)