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Siegel W. — Fields
Siegel W. — Fields



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Название: Fields

Автор: Siegel W.

Язык: en

Рубрика: Математика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1999

Количество страниц: 796

Добавлена в каталог: 01.10.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Kronecker delta      IA1
Kruskal — Szekeres coordinates      IXC7
Lab frame      VC7
Ladder diagram      XIA1
Lagrange multiplier      IIIA1
Lagrangian      IIIA1
Lagrangian density      IIIA3
Lamb shift      VIIIB6
Landau equations/singularity      VC8
Landau gauge      VIB2-3
Landau ghost      VIIC2
Laplace transform      VIIC3
Lattice      XIC
Legendre transform      VC3 XB5
Length      IA4 IIIB1 IXB2 XIA2
Lepton      IC4 IVB
Levi — Civita tensor      IA5 B3
Lie algebra/bracket/derivative/group      IA3
Light bending      IXC6
Lightcone      IA6
Lightcone basis      IA4
Lightcone coordinates      IA4 XIIA1
Lightcone frame      IIB3
Lightcone gauge      IIB3 IIIB2 C2
Lightcone spinor      XC4
Linear multiplet      XA3
Link      VC2 XIC
Little group      IIB3-4
Local inertial frame      IXC4
Local symmetry/transformation      Ill
Locality      IIIA1
Loop graph      IIIB5 VC
Lorentz connection      IXA2
Lorentz force law      IXB2
Lorentz gauge      VIB2 IXB1
Lorentz transf      1A4-5 IIIA5
Lowering operator      IA6 B5 VIA1
M$\ddot{o}$ller scattering      VIC4
Magnetic charge      IIIC8
magnetic moment      IIIC4 VIIA3 VIIIB5
Magnetic monopole      IIIC8
Majorana spinor      IIA6 IIIA4 XC2
Mandelstam variables      IA4 VC4 VIC4
Manifest symmetry      IB1
Maximal helicity violation      VIC1
Maxwell’s equations      IIA7 B2 IIIA4
Mechanics      IA
Mellin transform      VIIC3
Meson      IC4 IVA4 B1 VIIC4 VIIIB4
Method of images      XIA3
Metric      IA4 B2 IIIA1
Minimal coupling      IA5 IIB5 IIIA2 Cl
Minimal subtraction      VIIA3
Minkowski metric/space      IA4
Modified minimal subtraction      VIIA3
Momentum integral      VII-VIII
Momentum subtraction      VIIA3
monopole      IIIC8
Nakanishi-Lautrup      VIA2 XIIC3
Natural units      IA1 IXC4
Negative energy      IA4-5 IIIB4 VB1
Neutrino      IC4 IVB2-4
New minimal supergravity      XB5
Newtonian limit      IXB1 C6
Nielsen-Ninomiya theorem      XIC1
No-scale supergravity      XB7
Nonperturbative      VIIC
Nonrelativity      IA1
Nonrenormalization theorem      VIC5
Normal ordering      VIA1 XIA4
Null basis      IA4
Octonion      IB4 IIIC4
Off shell      IIB1 IVC1 XC3
Okubo — Zweig — Iizuka rule      VIIC4
Old minimal supergravity      XB5
On shell      IIB1 XC3
One-particle-irreducible graph      VC 2
Open string      IVB1 VIIC4 VIIIA3 XI
Operator cohomology      VIA1
Operator product expansion      VIIIC3
Optical theorem      VIIA4 VIIIC3
Orthogonal group      IB4
Orthonormal basis      IA4
Orthosymplectic group      IIC3 XII
Outer product      IIA1
Overlapping divergence      VIIB7
O’Raifeartaigh model      I VC 6
Pair creation      IIIB5 VIIB4 VIIIA2-3 C2
Parallel transport      IXB4
Parity      IA5 IIA5 IVA4 B1 VIIA5 XIB2
Parke — Taylor      VIC1-3
Partially conserved axial current      IVA4
Particles      IA
Parton      VIIIC
Parton distribution/model      VIIIC3
path integral      VA1-2 Cl-4
Path ordering      IIIC2 XIC1
Pati — Salam model      IVB4
Pauli matrices      IIA1 IIIA2 XC1
Pauli — Lubanski vector      IIB7
Pauli — Villars regularization      VIIIB2
Penrose transform      IIB6-7 C5
Perfect fluid      IXC5
Perihelion precession      IXC6
Perturbation      V-VIII
Pfaffian      IB3 C5
Phase space      IA5 VC7 VIIA5 B4-5 XIIC1
Photino      IVC5
Physical region      VC7
Pion      IC4 IVA4 VIIIB4
Pion decay constant      IVA4
Planar diagram      VC8-9 VIIC4
Planck units      IA1 IXC4
Plane wave      IIIC3 VB2 C7 IXC1
Plaquet      XIC1
Poincare group      IA4 IIIB
Poisson bracket      IA1
Polar vector      IA5
Positive action      IIIB1 VA5
Positive energy      IA4 IIC1 IIIA4 IVC2
Power counting      VIIA5
Prepotential      IVC1 XA1
Projective lightcone      IA6
Projective transformation      IA6 IVA2
Propagator      VA-B
Propagator correction      VIIB4-7 VIIIA
Proper Lorentz transformation      IA5
Proper time      IA4
Pseudogoldstone boson      IVA4 VIIIB4
Pseudohermiticity      IB4
Pseudoreal representation      IB2
Pseudoscalar/pseudotensor      IA5
QCD      IVB1 VIC3 VIIIA3 C
Quantum-chromodynamic string      XIC3
Quark      IC4 IVA4 B
quark-gluon plasma      IVB1
Quaternion      IB4 IIA1 C4
Quenched approximation      XIC1
R symmetry      XA1
Radial gauge      VIB1 IXB4
Radiation      IXC3-4
Raising operator      IB5 VIA1
Rapidity      IIA5
Real representation      IB2
Recursion      VIC 2
Red shift      IXC4
Reducible representation      IB2
Reference momentum/vector      VIB6
Reflection      IA5 IIA3
Regge behavior/theory/trajectory      XIA1
Regularization      VIIA-B
Relativistic Schr$\ddot{o}$dinger equation      IIB1
Relativity      IA4 IIA5-B IX
Renormalizability      VIIA1
Renormalizable gauge      VIB3
Renormalization      VIIA
Renormalization group      VIIB3 C1
Renormalization mass scale      VIIA3 B3
Renormalon      VIIC2
Representation      IB-C
Representation space      IB1
Residual gauge invar      VIA1 B2 IXB3 XIA3-4
Resummation      VIIC
Retarded propagator      VA3 Bl-2
Ricci scalar/tensor      IXA2
Riemann normal coordinates      IXB4
Riemann zeta function      VIIA2
Rindler coordinates      IXB2
Rotation      IA1 IIIA2
Running coupling      VIIB6
S-duality      IIA7 IIIC4 IXC1 XC6
S-matrix      VA4 C
S-supersymmetry      IIC4
Scalar field      IA1
Scalar multiplet      IVC1
Scalar potential      IIIA1
Scale weight      IA6 IIIB1
Scaling variable      VIIIC3
Scattering matrix      VA4 C
Schwarzschild solution      IXC5-7
Schwinger model      VIIIA8
Schwinger parameter      VB1 VIIA2
Schwinger — Dyson equations      VC3
Self-duality      IIIC4 IXC1
Semiclassical expansion      IIIA4 VA2 C3
Semisimple group      IB2
Sesquilinear      IB4
Sigma matrices      IIA1 IIIA2 XC1
Sigma model      IVA2-4
Signature      IA4
Simple group      IA6 B2
Simple supersymmetry      IVC7
Singularity      VC8 VIIC3 IXC7
SL(2, C)      IC5 IIIA5
Slepton      IVC5
SO(3)      IA3 IIIA2
Soft divergence/particle      VIIA6
Sommerfeld-Watson transform      XIA1
Source      IIIA4 VC3
Spacecone      VIB6-7 C1-3
Spacetime lattice      XIC1
Special groups      IB4
Special relativity      1A4IIIA5-B IIIA4
Spin      II
Spin operators      IIB
Spin-statistics theorem      VC5
Spinor helicity      VIB2
Spinor index      II
Spinor notation      IB5 C5 IIA
Spinor representation      IC5 XC1-2
Splitting function      VIIIC3
Spontaneous symmetry breakdown      IVA1
Squark      IVC5
St$\ddot{u}$ckelberg formalism      IIB4 IVA5
Standard model      IC4 IVB
Stationary phase      VA2
Steepest descent      VA5
Stirling approximation      VIIC2
Stokes’ Theorem      IC2
String      IVB1 VIIC4 VIIIA3 XI
String gauge      IXB5 XA4 XIB5 XIIB8
String tension      XIA2
Strong interaction      IC4 IVB1
Structure constants      IA3
Structure function      IXA2
SU(2)      1A3 IIA2
Subtraction scheme      VIIA1
Summation convention      IA1
Super helicity      IIC5
Super Yang-Mills      IVC3-5
Superconformal group      IIC4
Supercoordinate      IIC2 IIIB1
Superdeterminant      IIC3
Superficial divergence      VIIA1
Superfield      IIC2
Supergraph      VIC 5
Supergravity      X
Supergroup      IIC3
Superhiggs      XB6
Superpotential      IVC2
Superrenormalizable      VIC5 VIIA5
Superspace      IIC2
Superspacecone      VIB7 C3
Superstring      XIB3
Supersymmetry      IIC VIIIA5-6 X
Supersymmetry breaking      IVC6
Supertrace      IA2 IIC3
Supertwistor      IIC5
Symmetry      I-IV
Symmetry breaking      IVA
Symplectic      IB4
T-duality      XTB4
T-matrix      VC4
Tadpole      VIB8 C5 VIIB1
Temporal gauge      IIIC2
Tension      XIA2
Tensor multiplet      XA3 B5 XIB6 XIIB8
Tensor notation      IB5
Tetrad      IXA2
Three-vector      IIA1
Time development      IA1
Time ordering      IIIA5 VA1
Time reversal      IA5 IIA5 XIB2
Time translation      IA1
Topological expansion      VIIC4
Torsion      IVC3 IXA2 XA1
Tree graph      VC2 XIA6
Triality      XIB8
Triangle diagram      VIIIB2-5
Twist      VIIIC3
Twistor      IIB6-7 C5 IIIC5-7 VIB6-7 C1-3
Two-by-two matrix      IIA-B
U(1) problem      IC4
Ultraviolet divergence      VII-VIII
Unitarity      IB4 VA4 C5-6 VIIA4
Unitary gauge      IIIA5 B2 C2 IVA6 VIA4 B3
Unitary group      IB4
VACUUM      IC1 IIIB4 IVA
Vacuum bubble      VC7 VIB8 VIIBl-2
Vacuum value      IIC5 IVA1 VIIC3 IXA5
van Vleck determinant      VA2
Vector      1A3-4 IIIA1
Vector field      IC2
Vector multiplet      IVC3-4
Vector potential      IIA7
Vector representation      IC5
Velocity      IA1 IIIB1
Vertex      VC2 VIIIB
Vertex operator      XIA6 B4 XIIB7-8
Vielbein      IVC3
Vierbein      IXA2
Virasoro constraints      XIA2 B4
Volume element      IIIB1
W boson      IC4 IVB2
Ward — Takahashi identity      VIB8
Wave equation      IIB
Wave-function renorm      VIB8 VIIIA3 B5
Weak interaction      IC4 IVB2-4
Weak mixing (Weinberg) angle      IVB2
Wess — Zumino gauge      IVC4
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