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Ïîèñê êíèã, ñîäåðæàùèõ: Commutation relations
| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà | | Kadison R.V., Ringrose J.R. — Fundamentals of the theory of operator algebras (vol. 1) Elementary Theory | 181 | | Zinn-Justin J. — Quantum field theory and critical phenomena | 91 | | Zinn-Justin J. — Quantum field theory and critical phenomena | 83 | | Streater R.S., Wightman A.S. — PCT, Spin and Statistics, and All That | 100 | | Cahn R.N. — Semi-Simple Lie Algebras and Their Representations | 11, 30 | | Conte R. — Painleve Property: One Century Later | 607 | | Stein E.M. — Harmonic Analysis: Real-Variable Methods, Orthogonality, and Oscilattory Integrals | 545, 546, 548—549, 593 | | Naber G.L. — The geometry of Minkowski spacetime: an introduction to the mathematics of the special theory of relativity | 178 | | Debnath L., Mikusinski P. — Introduction to Hilbert Spaces with Applications | 354 | | Araki H. — Mathematical Theory of Quantum Fields | 184 | | Greiner W. — Quantum mechanics. An introduction | 80, 81, 188, 333, 350, 381, 439 | | O'Donnel P. — Introduction to 2-Spinors in General Relativity | 58, 119 | | Mihaly L., Martin M.C. — Solid state physics. Problems and solutions | 44, 182, 235 | | Dorlas T.C. — Statistical mechanics, fundamentals and model solutions | 205, 248 | | Domb C., Lebowitz J.L. — Phase Transitions and Critical Phenomena (Vol. 19) | 141, 177 | | Konopinski E.J. — Electromagnetic fields and relativistic particles | 248—249, 251 | | Kadison R.V., Ringrose J.R. — Fundamentals of the Theory of Operator Algebras (vol. 2) Advanced Theory | 181 | | Grosswald E. — Bessel Polynomials | 47, 48 | | Kubo R., Toda M., Hashitsume N. — Statistical physics II. Nonequilibrium statistical mechanics | 211, 235 | | Tung W.K. — Group Theory in Physics: An Introduction to Symmetry Principles, Group Representations, and Special Functions | Lie algebra, 101 | | Rickayzen G. — Green's functions and condensed matter | 341 | | Davydov A.S. — Theory of Molecular Excitons | 11, 12 | | Fulling S. — Aspects of Quantum Field Theory in Curved Spacetime | 6, 10, 15, 67—68, 119—120, 122—127, 137, 145, 148, 242, 245 | | Lopuzanski J. — An introduction to symmetry and supersymmetry in quantum field theory | 9—11, 19, 20, 23, 24, 44 | | Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 98 | | Birrell N.D., Davies P.C.W. — Quantum Fields in Curved Space | 12, 45, 82, 278 | | Hörmander L. — The Analysis Of Linear Partial Differential Operators III | 271 | | Bethe H.A., Salpeter E.E. — Quantum Mechanics of One-and-Two-Electron Atoms | 47, 52 | | Bogolubov N.N., Logunov A.A., Todorov I.T. — Introduction to Axiomatic Quantum Field Theory | (see “Commutator”, “Anticommutation relations”, “Canonical commutation relations”, “Anomalous commutation relations”, “Spin-and-statistics theorem”) | | Gardiner C.W.W., Haken H. — Handbook of Stochastic Methods: For Physics, Chemistry and the Natural Sciences | 373 | | Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 12, 19 | | Ziman J.M. — Electrons and Phonons: The Theory of Transport Phenomena in Solids | 7, 11, 12, 27, 30, 50 | | Avery J. — Creation and Annihilation Operators | 5, 20, 37, 38, 41, 51, 52, 55, 56, 57, 59, 60, 61, 62, 97, 98, 175, 192—195 | | Stahl A. — Physics with tau leptons | 5, 20, 37, 38, 41, 51, 52, 55, 56, 57, 59, 60, 61, 62, 97, 98, 175, 192—195 | | Gray C.G., Gubbins K.E. — Theory of molecular fluids | 228, 230, 605, 611 | | Schulman L.S. — Techniques and applications of path integration | 49—52, 255 | | ter Haar D. — Elements of Statistical Mechanics | 296, 300, 307 | | Greiner W., Mueller B. — Quantum mechanics: symmetries | 28 | | Gilmore R. — Lie Groups, Lie Algebras and Some of Their Applications | 9, 19, 22, 94—96, 103, 105, 106, 182, 186, 187, 189, 196, 212, 216, 217, 225, 226, 229, 237, 261, 264, 266—268, 270—272, 279, 293, 296, 324, 350 | | Scully M.O., Zubairy M.S. — Quantum optics | 5, 7, 9, 179 | | Auletta G. — Foundations and Interpretation of Quantum Mechanics | 31, 39, 128, 169, 196, 788, 789 | | Likharev K.K. — Dynamics of Josephson junctions and circuits | 20, 25 | | Stahl A., Balslev I. — Electrodynamics of the Semiconductor Band Edge | 186 | | Christensen S.M. — Quantum theory of gravity | 318 | | Conte R. — The Painlevé property: One century later | 607 | | Accardi L., Lu Y.G., Volovich I. — Quantum Theory and Its Stochastic Limit | 58 | | Steeb W., Hardy Y. — Problems and Solutions in Quantum Computing and Quantum Information | 171 | | Streater R.F., Wightman A.S. — PCT, spin and statistics and all that | 100 | | Berezin F.A. — Method of Second Quantization | 12, 19 | | Vilenkin N.Y., Gel'fand I.M. — Generalized Functions. Volume 4. Applications of Harmonic Analysis | 362 | | Mott N.F., Sneddon I.N. — Wave Mechanics and Its Applications | 36, 363 | | Mandel L., Wolf E. — Optical Coherence and Quantum Optics | 473, 474, 502 | | Hormander L. — The Analysis of Linear Partial Differential Operators IV | 271 | | Beard D.B. — Quantum Mechanics | 71—76 | | Akhiezer A.I., Berestetskii V.B. — Quantum electrodynamics | 161, 164, 199, 824 | | Haar D. — Selected problems in quantum mechanics | section 3 | | Greiner W., Reinhardt J. — Field quantization | see "Equal-time commutation relations" | | Choquard P.F. — The anharmonic crystal | 175 | | Brewer D.F. — Progress in Low Temperature Physics. Volume X | 33, 34, 35, 63 | | Rudzikas Z. — Theoretical Atomic Spectroscopy | 5, 41, 116 | | Beard D.B. — Quantum Mechanics | 71—76 | | Grosswald E. — Bessel Polynomials | 47, 48 | | Leader E., Predazzi E. — An introduction to gauge theories and modern particle physics | 1.443, 2.351 | | Mandl F. — Quantum mechanics | 79, 84, 86, 89, 104 | | Albeverio S.A., Hoegh-Krohn R.J. — Mathematical theory of Feynman path integrals | 88, 91, 92 | | Thirring W., Harrell E.M. — Quantum Mathematical Physics. Atoms, Molecules and Large many-body Systems | 304 | | Zeidler E. — Applied Functional Analysis: Applications to Mathematical Physics | 365 | | Greiner W. — Relativistic quantum mechanics. Wave equations | 4, 362 | | Ketterson J.B., Song S. — Superconductivity | 200, 210, 211, 258, 259, 462, 464, 466, 467 | | Sakurai J.J. — Modern quantum mechanics | 28 | | Giles R. — Mathematical foundation of thermodynamics | 166 | | Glimm J., Jaffe A. — Quantum Physics: A Functional Integral Point of View | 10, 25, 107, 108, 110, 112, 113, 115 | | Prikarpatsky A.K., Taneri U., Bogolubov N.N. — Quantum field theory with application to quantum nonlinear optics | 11 | | ter Haar D. — Elements of Statistical Mechanics | 296, 300, 307 | | Chandrasekhar S. — The Mathematical Theory of Black Holes | 38, see also "Structure constants" | | Suter D. — The physics of laser-atom interactions | 48, 78 | | Landau L.D., Lifshitz E.M. — Course of Theoretical Physics (vol.3). Quantum Mechanics. Non-relativistic Theory | 43, 46, 83—85, 93, 97, 200, 413, 457 | | Greiner W., Maruhn J. — Nuclear models | 124 | | Reichl L.E. — Modern Course in Statistical Physics | 319 | | Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 12, 19 | | Popper K.R. — Quantum theory and the schism in physics | 13, 53 | | Srivastava H.M., Manocha H.L. — A Treatise on Generating Functions | 321, 340, 343 |
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