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Viser: Quantum Field Theory
Quantum Field Theory Vital Source e-bog
Mark Srednicki
(2007)
Quantum Field Theory
Mark Srednicki
(2007)
Sprog: Engelsk
om ca. 10 hverdage
Detaljer om varen
- 1. Udgave
- Vital Source searchable e-book (Reflowable pages)
- Udgiver: Cambridge University Press (Januar 2007)
- ISBN: 9781139637411
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: ubegrænset dage fra købsdato.
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Detaljer om varen
- Hardback: 660 sider
- Udgiver: Cambridge University Press (Januar 2007)
- ISBN: 9780521864497
Part I. Spin Zero:
1. Attempts at relativistic quantum mechanics;
2. Lorentz invariance;
3. Canonical quantization of scalar fields;
4. The spin-statistics theorem;
5. The LSZ reduction formula;
6. Path integrals in quantum mechanics;
7. The path integral for the harmonic oscillator;
8. The path integral for free field theory;
9. The path integral for interacting field theory;
10. Scattering amplitudes and the Feynman rules;
11. Cross sections and decay rates;
12. Dimensional analysis with ?=c=1;
13. The Lehmann-Källén form;
14. Loop corrections to the propagator;
15. The one-loop correction in Lehmann-Källén form;
16. Loop corrections to the vertex;
17. Other 1PI vertices;
18. Higher-order corrections and renormalizability;
19. Perturbation theory to all orders;
20. Two-particle elastic scattering at one loop;
21. The quantum action;
22. Continuous symmetries and conserved currents;
23. Discrete symmetries: P, T, C, and Z;
24. Nonabelian symmetries;
25. Unstable particles and resonances;
26. Infrared divergences;
27. Other renormalization schemes;
28. The renormalization group;
29. Effective field theory;
30. Spontaneous symmetry breaking;
31. Broken symmetry and loop corrections;
32. Spontaneous breaking of continuous symmetries;
Part II. Spin One Half:
33. Representations of the Lorentz Group;
34. Left- and right-handed spinor fields;
35. Manipulating spinor indices;
36. Lagrangians for spinor fields;
37. Canonical quantization of spinor fields I;
38. Spinor technology;
39. Canonical quantization of spinor fields II;
40. Parity, time reversal, and charge conjugation;
41. LSZ reduction for spin-one-half particles;
42. The free fermion propagator;
43. The path integral for fermion fields;
44. Formal development of fermionic path integrals;
45. The Feynman rules for Dirac fields;
46. Spin sums;
47. Gamma matrix technology;
48. Spin-averaged cross sections;
49. The Feynman rules for majorana fields;
50. Massless particles and spinor helicity;
51. Loop corrections in Yukawa theory;
52. Beta functions in Yukawa theory;
53. Functional determinants;
Part III. Spin One:
54. Maxwell's equations;
55. Electrodynamics in coulomb gauge;
56. LSZ reduction for photons;
57. The path integral for photons;
58. Spinor electrodynamics;
59. Scattering in spinor electrodynamics;
60. Spinor helicity for spinor electrodynamics;
61. Scalar electrodynamics;
62. Loop corrections in spinor electrodynamics;
63. The vertex function in spinor electrodynamics;
64. The magnetic moment of the electron;
65. Loop corrections in scalar electrodynamics;
66. Beta functions in quantum electrodynamics;
67. Ward identities in quantum electrodynamics I;
68. Ward identities in quantum electrodynamics II;
69. Nonabelian gauge theory;
70. Group representations;
71. The path integral for nonabelian gauge theory;
72. The Feynman rules for nonabelian gauge theory;
73. The beta function for nonabelian gauge theory;
74. BRST symmetry;
75. Chiral gauge theories and anomalies;
76. Anomalies in global symmetries;
77. Anomalies and the path integral for fermions;
78. Background field gauge;
79. Gervais-Neveu gauge;
80. The Feynman rules for N x N matrix fields;
81. Scattering in quantum chromodynamics;
82. Wilson loops, lattice theory, and confinement;
83. Chiral symmetry breaking;
84. Spontaneous breaking of gauge symmetries;
85. Spontaneously broken abelian gauge theory;
86. Spontaneously broken nonabelian gauge theory;
87. The standard model: Gauge and Higgs sector;
88. The standard model: Lepton sector;
89. The standard model: Quark sector;
90. Electroweak interactions of hadrons;
91. Neutrino masses;
92. Solitons and monopoles;
93. Instantons and theta vacua;
94. Quarks and theta vacua;
95. Supersymmetry;
96. The minimal supersymmetric standard model;
97. Grand unification; Bibliography.