| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Siegman A.E. — Lasers | 179 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 130.A |
| Collin R.E. — Foundations for Microwave Engineerings | 38—39 |
| Wesson J. — Tokamaks | 77 |
| Mukamel S. — Principles of Nonlinear Optical Spectroscopy | 90 |
| Levine I.N. — Molecular Spectroscopy | 115 |
| Hand L.N., Finch J.D. — Analytical Mechanics | 507, 517 |
| Monk P. — Finite Element Methods for Maxwell's Equations | 233 |
| Torretti R. — Relativity and Geometry | 116, 319 note 6 |
| Browne M.E. — Schaum's outline of theory and problems of physics for engineering and science | 345 |
| Edminister J.A. — Schaum's outline of electromagnetics | 226 |
| Tompkins H.G., Irene E.A. — Handbook of Ellipsometry | 5, 40, 50, 112, 116, 121 |
| Fock V. — The Theory of Space Time and Gravitation | 97 |
| Bohren C.F., Huffman D.R. — Absorption and Scattering of Light by Small Particles | 23, 24 |
| Eringen A.C. — Mechanics of continua | 444, 445 |
| Bamberg P.G. — A Course in Mathematics for Students of Physics, Vol. 2 | 700 |
| Heusler M., Goddard P. — Black Hole Uniqueness Theorems | 58, 71, 127 |
| Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1) | 108, 169 |
| Szekeres P. — A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 253 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 130.A |
| Menzel D.H. — Mathematical Physics | 289, 294, 356 |
| Fermi E. — Nuclear Physics | 89 |
| Mukamel S. — Principles of nonlinear spectroscopy | 90 |
| Moss T.S. — Optical properties of semi-conductors (Semi-conductor monographs) | 2, 5 |
| Konopinski E.J. — Electromagnetic fields and relativistic particles | 155 |
| Zajac A. — Optics | 47—48, 63, 119, 149 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 954—955, 958, 966 |
| Heitler W. — The Quantum Theory of Radiation | 5, 26, 60, 63, 263 |
| Maimistov A.I., Basharov A.M. — Nonlinear optical waves | 500, 532 |
| Cleland A.N. — Foundations of nanomechanics | 251 |
| van de Hulst H.C. — Light Scattering by Small Particles | 64, 267 |
| Born M. — Atomic Physics | 272, 273, 275, 329 |
| Meschede D. — Optics, Light and Lasers: The Practical Approach to Modern Aspects of Photonics and Laser Physics | 34 |
| Banerjee P.P., Poon T.-C. — Principles of applied optics | 60, 62 |
| Bube R.H. — Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 420 |
| Nahin P.J. — The Science of Radio | 11, 14 (problem), 19—20 |
| Billingham J., King A.C. — Wave Motion | 186, 211, 213 |
| Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 290 |
| Woodhouse N.M.J. — Special Relativity | 75 |
| Nayfeh M.H., Brussel M.K. — Electricity and Magnetism | 453 |
| Mishchenko M.I. — Scattering, Absorption, and Emission of Light by Small Particles | 11 |
| Schiff L.I. — Quantum mechanics | 242 |
| Verdeyen J.T. — Laser electronics | 12 |
| Visser M. — Lorentzian wormholes. From Einstein to Hawking | 11, 309 |
| Logan J.D. — Invariant Variational Principles | 100, 109 |
| Raizer Yu.P. — Gas Discharge Physics | 43 |
| Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2) | 108, 169 |
| Englert B.G. (Ed) — Quantum Mechanics | 469 |
| Lim Y. (ed.) — Problems and solutions on electromagnetism. (Major American Universities Ph.D. Qualifying Questions and Solutions) | 4032 |
| Eddington A. — The Internal Consitution of the Stars | 57 |
| Sernelius B.E. — Surface Modes in Physics | 110 |
| Stratton J.A. — Electromagnetic Theory | 132 |
| Carrol B.W., Ostlie D.A. — An introduction to modern astrophysics | 66 |
| Greiner W. — Classical electrodynamics | 255 |
| Greiner W. — Quantum mechanics: special chapters | 3 |
| D'Inverno R. — Introducing Einstein's Relatvity | 163 |
| Fogiel M. — The optics problem solver | 3—11, 3—12 |
| Neff H.P.Jr. — Introductory electromagnetics | 145, 179 |
| Tolman R.C. — Relativity, thermodynamics, and cosmology | 90 |
| Padmanabhan T. — Theoretical Astrophysics: Volume 1, Astrophysical Processes | 117 |
| Guru B.S., Hiziroğlu H.R. — Electromagnetic Field Theory Fundamentals | 316, 319, 338 |
| Rose M.E. — Elementary theory of angular momentum | 131 |
| Sachs R.K., Wu H. — General relativity for mathematicians | 86, 269 |
| Measures R.M. — Laser remote sensing. Fundamentals and applications | 21 |
| Fox M. — Optical properties of solids | 259 |
| Cramer N.F. — The Physics of Alfvén Waves | 9, 17 |
| Pavičić M. — Quantum Computation and Quantum Communication: Theory and Experiments | 19, 21 |
| Landau L.D., Lifshitz E.M. — The classical theory of fields | 81 |
| Bertotti G. — Hysteresis in Magnetism: For Physicists, Materials Scientists, and Engineers | 99 |
| Akhmediev N., Ankiewicz A. — Dissipative Solitons | 119—124 |
| Ohanian H.C. — Classical Electrodynamics | 247, 250, 371 |
| Zakharov V.D. — Gravitational waves in Einstein's theory | 50 |
| Coulson C.A. — Waves: a mathematical approach to the common types of wave motion | 120, 126, 138 |
| Ghatak A.K., Thyagarajan K. — Optical Electronics | 12 |
| Stratton J.A. — Electromagnetic Theory | 132 |
| Shu F.H. — The Physical Universe: An Introduction to Astronomy | 18 |
| Choquet-Bruhat Y., DeWitt-Morette C., Dillard-Bleick M. — Analysis, manifolds and physics. Part I. | 338 |
| Büchner J., Dum C., Scholer M. — Space Plasma Simulation | 251 |
| Achmanov S.A., Nikitin S.Yu. — Physical Optics | 356, 406 |
| Zhang K., Li D. — Electromagnetic Theory for Microwaves and Optoelectronics | 30 |
| Sommerfeld A., Ramberg Edward G. (translator) — Electrodynamics. Lectures on theoretical physics, Vol. III | 26 |
| McQuarrie D.A. — Statistical Mechanics | 471, Appendix I |
| Ugarov V.A. — Special Theory of Relativity | 223, 259 |
| Bridgman P.W. — The Nature of Thermodynamics | 30, 32, 95, 107, 112 |
| Bransden B., Joachain C. — Physics of Atoms and Molecules | 157 |
| Dickey F.M., Holswade S.C. — Laser beam shaping. Theory and techniques | 53 |
| Greiner W., Reinhardt J. — Field quantization | 148 |
| Podgorsak E. — Radiation Physics for Medical Physicists | 95, 190, 409 |
| Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 180, 249, 268, 377 |
| Wiedemann H. — Particle accelerator physics II | 235, 241 |
| Rosser G. — Interpretation of classical electromagnetism | 286, 287, 350, 405 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 1106—1108 |
| Singh J. — Semiconductor Optoelectronics: Physics and Technology | 174 |
| Frankel T. — The geometry of physics: an introduction | 322 |
| Motz H., Luchini P. — Undulators and free-electron lasers | 98 |
| Griffits D.J. — Introductions to electrodynamics | 347, 380—383 |
| Lichnerowicz A. — Relativistic hydrodynamics and magnetohydrodynamics: Lectures on the existence of solutions | 90 |
| Biedenharn L.C., Louck J.D. — Angular momentum in quantum physics | 440, 441, 449 |
| Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 353 |
| Anderson J.L. — Principles of Relativity Physics | 274, 430 |
| Boyd R.W. — Nonlinear Optics | 75, 563—564 |
| Kruegel E. — The Physics of Interstellar Dust | 10, 27 |
| Freidberg J.P. — Plasma Physics and Fusion Energy | 558, 568 |
| Synge J.L. — Relativity: The Special Theory | 324 |
| Schiff L.I. — Quantum Mechanics | 400, 408, 518 |
| Authier A., Lagomarsino S., Tanner B. — X-ray and neutron dynamical diffraction | 9, 98, 141, see also "Energy flow" |
| Barut A.O. — Electrodynamics and Classical Theory of Fields and Particles | 118, 170 |
| Visconti A. — Quantum field theory. Volume 1 | 249 |
| Kravens T.E. — Physic of Solar System Plasmas | 123, 382, 471 |
| Ridley B.K. — Quantum Processes in Semiconductors | 184 |
| Haus H.A. — Waves and Fields in Optoelectronics | 10, 102 |
| Akhmanov S.A., Nikitin S.Yu. — Physical Optics | 356, 406 |
| Suter D. — The physics of laser-atom interactions | 228 |
| Frankel T. — The geometry of physics: An introduction | 322 |
| Flanders H. — Differential Forms with Applications to the Physical Sciences | 47 |
| Sexl R., Urbantke H.K. — Relativity, Groups, Particles. Special Relativity and Relativistic Symmetry in Field and Particle Physics | 114, 116, 251 |
| Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, manifolds and physics | 338 |
| Jackson J.D. — Classical electrodynamics | 259 |
| Krall N., Trivelpiece A. — Principles of Plasma Physics | 140 |
| Melissinos A.C. — Principles of modern technology | 119 |
| Halpern A., Erlbach E. — Beginning Physics II: Waves, Electromagnetism, Optics and Modern Physics | 323, 460, see also "Direction of propagation" |
| Bell J., Kearsley M., Pitaevskii L. — Course of Theoretical Physics, Volume 8, Volume 8, Second Edition: Electrodynamics of Continuous Media | see Energy flux |
| Landau L.D., Lifshitz E.M. — Course of Theoretical Physics, Volume 8: Electrodynamics of Continuous Media | see Energy flux |
| Bell J.S., Kearsley M.J. — Course of Theoretical Physics, Volume 8: Electrodynamics of Continuous Media | see Energy flux |
| L.D. Landau, E.M. Lifshitz — Electrodynamics of Continuous Media | see Energy flux |
| L.D. Landau — Electrodynamics of Continuous Media | see Energy flux |
| L. D. LANDAU, E. M. LIFSHITZ — ELECTRODYNAMICS OF CONTINUOUS MEDIA | see Energy flux |
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