| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Greiner W., Muller B., Rafelski J. — Quantum electrodynamics of strong fields | 29, 479 |
| Zinn-Justin J. — Quantum field theory and critical phenomena | 109 |
| Zinn-Justin J. — Quantum field theory and critical phenomena | 103 |
| Gilbert J., Murray M. — Clifford Algebras and Dirac Operators in Harmonic Analysis | 9, 25, 93 |
| Lee J.M. — Differential and Physical Geometry | 136 |
| Cahn R.N. — Semi-Simple Lie Algebras and Their Representations | 8, 10 |
| Melrose R. — The Atiyah-Singer index theorem (part 3) | 68 |
| Ward R.S., Wells R.O. — Twistor geometry and field theory | 89, 267, 276, 284, 405, 421 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 412, 612, 614 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 111 |
| Ohnuki Y. — Unitary representations of the Poincare group and relativistic wave equations | 14 |
| Ryder L.H. — Quantum Field Theory | 34, 35 |
| Gracia-Bondia J.M., Varilly J.C., Figueroa H. — Elements of Noncommutative Geometry | 76, 333, 411, 560, 595 |
| Kac V. — Vertex Algebra for Beginners | 131 |
| Tarantello G. — Self-Dual Gauge Field Vortices: An Analytical Approach | 25, 35 |
| Strauss W.A. — Partial Differential Equations: An Introduction | 354 |
| Hertrich-Jeromin U. — Introduction to Mobius Differential Geometry | 149 |
| Reed M., Simon B. — Methods of Modern mathematical physics (vol. 3) Scattering theory | 287 |
| Greiner W. — Quantum mechanics. An introduction | 333 f. |
| Thaller B. — Visual quantum mechanics | 14 |
| Shankar R. — Basic Training In Mathematics | 226 |
| Thouless D.J. — Topological quantum numbers in nonrelativistic physics | 95 |
| Zagoskin A.M. — Quantum theory of many-body systems | 122, 170 |
| Domb C., Green M.S. (eds.) — Phase Transitions and Critical Phenomena (Vol. 1) | 206, 208, 210, 211, 245, 251 |
| Rammer J. — Quantum transport theory | 49, 122 |
| Henneaux M., Teitelboim C. — Quantization of Gauge Systems | 158, 361 |
| Szekeres P. — A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 173 |
| Galindo A., Pascual P. — Quantum Mechanics Two | I 66, 200, 323 |
| Eddington A. — Relativity Theory of Protons and Electrons | 47, 160, 248, 278, 310 |
| Jauch J.M. — Foundations of quantum mechanics | 255 |
| Elizalde E., Odintsov A.D., Romeo A. — Zeta Regularization Techiques with Applications | 139 |
| Braunstein S.L. — Quantum computing | 153, 154, 155, 162, 215 |
| Guimaraes A.P. — Magnetism and Magnetic Resonance in Solids | 81 |
| Close F.E. — An introduction to quarks and partons | 23 |
| Thaller B. — The Dirac equation | 3, 49, 68 |
| Bratteli O., Robinson D.W. — Operator Algebras and Quantum Statistical Mechanics (vol. 1) | 337 |
| Haake F. — Quantum signatures of chaos | 18, 24 |
| Nagaosa N. — Quantum field theory in condensed matter physics | 47 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, Manifolds and Physics (vol. 2) | 8 |
| Brillouin L. — Wave Propagation in Periodic Structures | 234, 236, 239 |
| Greiner W., Muller B. — Gauge theory of weak interactions | 120, 124 |
| Tung W.K. — Group Theory in Physics: An Introduction to Symmetry Principles, Group Representations, and Special Functions | 106, 127, 180 |
| Lopuzanski J. — An introduction to symmetry and supersymmetry in quantum field theory | 47, 48, 51, 58 |
| Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 122, 124, 136 |
| Dubrovin B.A., Fomenko A.T., Novikov S.P. — Modern Geometry - Methods and Applications. Part 1. The Geometry of Surfaces, Transformation Groups and Fields | 131, 433 |
| Shifman M.A. — ITEP lectures on particle physics and field theory (Vol. 1) | 501 |
| O'Raifeartaigh L. — Group Structure of Gauge Theories | 11, 45, 48, 57, 64, 67, 104—108, 130 |
| Gardiner C.W., Zoller P. — Quantum Noise: A Handbook of Markovian and Non-Markovian Quantum Stochastic Methods with Applications to Quantum Optics | 277 |
| Galindo A., Pascual P. — Quantum Mechanics One | 66, 200, 323 |
| Lee T.D. — Practicle physics and introduction to field theory | 29 |
| Englert B.G. (Ed) — Quantum Mechanics | 56, 58, 156 |
| Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | 94 |
| Griffits D. — Introduction to elementary particles | 115, 139, 216, 334, 351, 379 |
| Beltrametti E.G., Cassinelli G. — The Logic of Quantum Mechanics (Encyclopedia of Mathematics and Its Applications - Vol 15) | 31 |
| Bogolubov N.N., Logunov A.A., Todorov I.T. — Introduction to Axiomatic Quantum Field Theory | 132, 134 |
| Aldrovandi R. — Special matrices of mathematical physics (stochastic, circulant and bell matrices) | 109 |
| Park D. — Introduction to the quantum theory | 174 |
| Junker G. — Supersymmetric Methods in Quantum and Statistical Physics | 3 |
| Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 75—76, 104, 119p, 196p, 343, 353 |
| Basdevant J.-L., Dalibard J. — The Quantum Mechanics Solver | 86, 99, 119 |
| ter Haar D. — Elements of Statistical Mechanics | 261 |
| Wawrzynczyk A. — Group representations and special functions | 295, 310 |
| Zee A. — Quantum field theory in a nutshell | 238 |
| Greiner W. — Quantum mechanics: special chapters | 44 |
| Halzen F., Martin A.D. — Quarks and Leptons: An Introductory Course in Modern Particle Physics | 39, 42, 101 |
| Shankar R. — Principles of quantum mechanics | 381 |
| Greiner W., Mueller B. — Quantum mechanics: symmetries | 58 |
| Bertlmann R.A. — Anomalies in Quantum Field Theory | 160 |
| Tomotada O. — Quantum invariants: a study of knots, 3-manifolds, and their sets | 14 |
| Siegel W. — Fields | IIA1, IIIA2, XC1 |
| Scully M.O., Zubairy M.S. — Quantum optics | 196 |
| Steeb W.-H. — Problems and Solutions in theoretical and mathematical physics. Volume 1. Introductory level | 44 |
| Sternberg S. — Group Theory and Physics | 7 |
| Perina J., Hradil Z., Jurco B. — Quantum optics and fundamentals of physics | 133, 137 |
| Phillips P. — Advanced Solid State Physics | 74 |
| Woodhouse N.M.J. — Geometric quantization | 55 |
| Gottfried K., Weisskopf V.F. — Concepts of Particle Physics | 19, 49 |
| Gardiner C.W. — Quantum Noise | 280 |
| Fordy A.P., Wood J.C. (eds.) — Harmonic maps and integrable systems | 87 |
| Lee J.M. — Differential and physical geometry | 136 |
| Baez J.C., Muniain J.P. — Gauge theories, knots, and gravity | 172 |
| Zakrzewski W.J. — Low Dimensional Sigma Models | 131 |
| Yu Y. — Index Theorem and the Heat Equation Method | 182 |
| Nouredine Z. — Quantum Mechanics: Concepts and Applications | 285 |
| Goldenfeld N. — Lectures on Phase Transitions and the Renormalization Group | 99 |
| Mott N.F., Sneddon I.N. — Wave Mechanics and Its Applications | 97 |
| Wigner E.P. — Group Theory and Its Applicaion to the Quantum Mechanics of Atomic Spectra | 158, 232 |
| Choquet-Bruhat Y., DeWitt-Morette C., Dillard-Bleick M. — Analysis, manifolds and physics. Part I. | 183 |
| Finkbeiner D.T. — Introduction to Matrices and Linear Transformations | 79 |
| Kac V. — Vertex Algebras for Beginners | 131 |
| Akhiezer A.I., Berestetskii V.B. — Quantum electrodynamics | 73 |
| Esposito G. — Dirac Operators and Spectral Geometry | 17 |
| Moore J.D. — Lectures on Seiberg-Witten Invariants | 42 |
| Jauch J.M. — Foundations Of Quantum Mechanics | 255 |
| Christe P., Henkel M. — Introduction to conformal invariance and its applications to critical phenomena | 96 |
| Siegel W. — Fields | IIA1, IIIA2, XC1 |
| Carroll R.W. — Mathematical physics | 65, 296 |
| Alicki R., Lendi K. — Quantum Dynamical Semigroups And Applications | 51 |
| Ercolani N.M., Gabitov I.R., Levermore C.D. — Singular limits of dispersive waves | 183 |
| Thaller B. — The Dirac equation | 3, 49, 68 |
| Faddeev L.D., Takhtajan L., Reyman A.G. — Hamiltonian methods in the theory of solitons | 21 |
| Shifman M.A. — ITEP lectures on particle physics and field theory (Vol. 2) | 501 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 120 |
| Boerner H. — Representations of Groups | 270, 287 |
| Mandl F. — Quantum mechanics | see "Spin matrices" |
| Frankel T. — The geometry of physics: an introduction | 493 |
| Mineev V.P. — Topologically stable defects and solutions in ordered media | 8 |
| Milonni P.W. — The quantum vacuum: introduction to quantum electrodynamics | 325 |
| Biedenharn L.C., Louck J.D. — Angular momentum in quantum physics | 15, 17, 25, 38, 196—198, 201, 214, 221, 223, 317, 318, 320, 321 |
| Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 376 |
| Anderson J.L. — Principles of Relativity Physics | 37 |
| Henkel M. — Conformal Invariance and Critical Phenomena | 143 |
| Greiner W. — Relativistic quantum mechanics. Wave equations | 22, 102, 334, 350 |
| Barut A.O. — Electrodynamics and Classical Theory of Fields and Particles | 24, 25, 43 |
| Ticciati R. — Quantum field theory for mathematicians | 148 |
| Zeidler E. — Oxford User's Guide to Mathematics | 661, 861 |
| Sakurai J.J. — Modern quantum mechanics | 164—165 |
| Snygg J. — Clifford algebra: a computational tool for physicists | 10 |
| Constantinescu F., Magyari E. — Problems in quantum mechanics | 144 |
| Binder K., Heermann D.W. — Monte Carlo Simulation in Statistical Physics | 153 |
| Ma Z.-Q., Gu X.-Y. — Problems and Solutions in Group Theory for Physicists | 3, 33 |
| Glimm J., Jaffe A. — Quantum Physics: A Functional Integral Point of View | 312 |
| ter Haar D. — Elements of Statistical Mechanics | 261 |
| Ivanov O.A. — Easy as Pi?: An Introduction to Higher Mathematics | 125 |
| Chandrasekhar S. — The Mathematical Theory of Black Holes | 536, 539, 543 |
| Frankel T. — The geometry of physics: An introduction | 493 |
| Landau L.D., Lifshitz E.M. — Course of Theoretical Physics (vol.3). Quantum Mechanics. Non-relativistic Theory | 204 |
| Greiner W., Maruhn J. — Nuclear models | 24 |
| Blanchard P., Bruening E. — Mathematical Methods in Physics: Distributions, Hilbert Space Operators, and Variational Method | 234 |
| Kleinert H. — Gauge fields in condensed matter (part 2) | 73 |
| Sexl R., Urbantke H.K. — Relativity, Groups, Particles. Special Relativity and Relativistic Symmetry in Field and Particle Physics | 191 |
| Snygg J. — Clifford algebra: a computational tool for physicists | 10 |
| Bettini A. — Introduction to Elementary Particle Physics | 75 |
| Park D. — Introduction to the Quantum Theory (Pure & Applied Physics) | 174 |
| Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 75—76, 104, 119p, 196p, 343, 353 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, manifolds and physics | 183 |
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