| Книга | Страницы для поиска |
| Wolf E.L. - Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | |
| Crowell B. - The modern revolution in physics | |
| Siegman A.E. - Lasers | 337-338, 341, 363 |
| Ito K. - Encyclopedic Dictionary of Mathematics. Vol. 2 | 446 |
| Zeidler E. - Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 107, 110 |
| Demtroeder W. - Laser spectroscopy | 631 |
| Watson G.N. - Treatise on the theory of Bessel functions | 229 |
| Hamilton W.R. - The collected mathematical papers. Volume 1: geometrical optics | 500 |
| Finlayson B.A. - Numerical Methods for Problems With Moving Fronts | 307, 310, 312 |
| Wesseling P. - Principles of computational fluid dynamics | 309, 320, 327, 356 |
| Zienkiewicz O.C., Taylor L.R. - The finite element method (vol. 3, Fluid dynamics) | 243 |
| Henrici P. - Applied and Computational Complex Analysis (Vol. 3) | 212 |
| Hinch E.J. - Perturbation Methods | 138 |
| Watson G.N. - Treatise on the Theory of Bessel Functions | 229 |
| Weinstock R. - Calculus of variations with applications to physics & engineering | 290 |
| Nayfeh A.H. - Perturbation Methods | 179, 219, 220, 267, 299 |
| Nayfeh A.H., Mook D.T. - Nonlinear Oscillations | 35, 586, 598 |
| Atkins P.W., Friedman R.S. - Molecular Quantum Mechanics | 519 |
| Drazin P. - Introduction to Hydrodynamic Stability | 70, 72, 73, 86, 87, 200 |
| Pedlosky J. - Waves in the ocean and atmosphere: introduction to wave dynamics | 13, 14, 17, 30, 39, 41, 47, 50, 52, 54, 66, 67, 105, 115, 157 |
| Debnath L. - Nonlinear water waves | 4, 55-56, 101, 109, 306, 312, 334, 360, 372, 394, 414, 471, 482 |
| Debnath L., Mikusinski P. - Introduction to Hilbert Spaces with Applications | 369 |
| Guenther R.D. - Modern optics | 256 (see also 'Velocity') |
| Debnath L. - Nonlinear Partial Differential Equations for Scientists and Engineers | 97, 265, 273, 280 |
| Kossevich A.M. - Crystal Lattice: Phonons, Solitons, Dislocations | 33 |
| Ewing W.M., Jardetzky W.S., Press F. - Elastic waves in layered media | 68, 144 |
| Dyke Ph.P.G. - Managing Mathematical Projects - with Success! | 248 |
| Maurel A., Petitjeans P. - Vortex Structure and Dynamics | 77, 103 |
| Debnath L. - Linear Partial Differential Equations for Scientists and Engineers | 546 |
| Ablowitz M.J., Fokas A.S. - Complex Variables: Introduction and Applications | 295, 475 |
| Greiner W. - Quantum mechanics. An introduction | 31 |
| Brekhovskikh L.M., Lysanov Y.P. - Fundamentals of Ocean Acoustics | 107, 135 |
| Bohren C.F., Huffman D.R. - Absorption and Scattering of Light by Small Particles | 253 |
| Zakharov V.E. - What is integrability? | 4, 5 |
| Greiner W. - Classical mechanics. Point particles and relativity | 421 |
| Bamberg P.G. - A Course in Mathematics for Students of Physics, Vol. 2 | 761 |
| Rammer J. - Quantum transport theory | 176 |
| Ziman J.M. - Elements of Advanced Quantum Theory | 165 |
| Altmann S.L. - Band Theory of Solids: An Introduction from the Point of View of Symmetry | 20 (1-8.13) |
| Ito K. - Encyclopedic Dictionary of Mathematics | 446 |
| Menzel D.H. - Mathematical Physics | 349 |
| Dirac P.A.M. - The Principles of Quantum Mechanics | 120 |
| Schuster A. - An Introduction to the Theory of Optics | 326 |
| Konopinski E.J. - Electromagnetic fields and relativistic particles | 576-577 |
| Jahne B. - Digital Image Processing | 365 |
| Ablowitz M.J., Segur H. - Solitons and the Inverse Scattering Transform | 75, 78, 356, 360, 371, 387 |
| Zauderer E. - Partial Differential Equations of Applied Mathematics | 144, 299 |
| Ewald P.P. - The physics of solids and fluids | 264 |
| Schercliff J.A. - Vector Fields | 266 |
| Maimistov A.I., Basharov A.M. - Nonlinear optical waves | 24, 307, 369, 372, 378 |
| Cleland A.N. - Foundations of nanomechanics | 20, 101, 251 |
| Born M. - Atomic Physics | 78, 281 |
| Thirring W.E. - Classical Mathematical Physics: Dynamical Systems and Field Theories | 399 |
| Meschede D. - Optics, Light and Lasers: The Practical Approach to Modern Aspects of Photonics and Laser Physics | 85 |
| Heitler W. - Elementary Wave Mechanics With Applications to Quantum Chemistry | 5, 30 |
| Banerjee P.P., Poon T.-C. - Principles of applied optics | 79, 331 |
| Bube R.H. - Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 4 |
| Young M. - Optics and Lasers: Including Fibers and Optical Waveguides | 5.2.1, 11.3.3 |
| Fulling S. - Aspects of Quantum Field Theory in Curved Spacetime | 271, 274 |
| Billingham J., King A.C. - Wave Motion | 11, 13, 15, 16, 53, 56, 84, 97, 100, 109, 117, 148, 186, 206, 430, 447 |
| Povey M.J. - Ultrasonic Techniques for Fluids Characterization | 24, 33 |
| Allen H.S. - Electrons and Waves | 240, 308 |
| Nayfeh M.H., Brussel M.K. - Electricity and Magnetism | 546, 552, 644 |
| Landau L.D., Lifschitz E.M. - Fluid Mechanics. Vol. 6 | 263 |
| Dirac P.A.M. - The Principles of Quantum Mechanics, Vol. 27 | 120 |
| Schiff L.I. - Quantum mechanics | 14 |
| Kulish V.V. - Hierarchical Methods: Hierarchy and Hierarchical Asymptotic Methods In Electrodynamics, Volume 1 | 25, 301, 307 |
| Kittel C. - Introduction to solid state physics | 69 |
| Achenbach J.D. - Wave propagation in elastic solids | 210, 211, 216-218 |
| Jackson J.D. - Classical electrodynamics | 211 |
| Wolf E.L. - Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 54, 96, 162 |
| Park D. - Introduction to the quantum theory | 21, 47 |
| Pomraning G.C. - The equations of radiation hydrodynamics | 145 |
| Stratton J.A. - Electromagnetic Theory | 330-333, 339 |
| Fetter A.L., Walecka J.D. - Quantum theory of many-particle systems | 183 |
| Wong K. - Asymptotic Approximations of Integrals | 83 |
| Bateman H. - Partial Differential Equations of Mathematical Physics | 231 |
| Graff K.F. - Wave motion in elastic solids | 59-62 |
| Greiner W. - Classical electrodynamics | 363 |
| Economou E.N. - Green's Functions in Quantum Physics | 85, 155 |
| Pfeiler W. - Alloy Physics: A Comprehensive Reference | 142 |
| Slater J.C. - Quantum Theory of Atomic Structure vol1 | 39-40, 408-409 |
| Zory P.S. - Quantum well lasers | 36, 42 |
| Bates D.R. - Quantum Theory | 63 |
| Mattheij R.M.M. - Partial differential equations: modeling, analysis, computation | 45, 565 |
| Volovik G. - Artificial black holes | 121, 123 |
| Eddington A.S. - Nature of the Physical World | 213 |
| Fogiel M. - The optics problem solver | 14-28, 23-10, 23-11 |
| Estrada R., Kanwal R.P. - A distributional approach to asymptotics theory and applications | 213 |
| Hume-Rothery W. - Atomic Theory for Students of Metallurgy | 68, 142, 181, 188 |
| Kundt W. - Astrophysics. A Primer | 49 |
| Demtröder W. - Laser spectroscopy: basic concepts and instrumentation | 631 |
| Garbey M., Kaper H.G. - Asymptotic Analysis and the Numerical Solution of Partial Differential Equations, Vol. 130 | 101 |
| Basdevant J.-L., Dalibard J. - Quantum Mechanics | 26 |
| Auletta G. - Foundations and Interpretation of Quantum Mechanics | 699 |
| Mihalas D., Mihalas B.W. - Foundations of Radiation Hydrodynamics | 175-177, 194-197 |
| Stahl A., Balslev I. - Electrodynamics of the Semiconductor Band Edge | 80 |
| Slater J.C., Frank N.H. - Mechanics | 168-169 |
| Lim Y. (ed.) - Problems and solutions on solid state physics, relativity and miscellaneous topics | 1056 |
| Compton A.H., Allison S.K. - X-Rays in Theory and Experiment | 778 |
| Fox M. - Optical properties of solids | 38, 80, 274 |
| Cramer N.F. - The Physics of Alfvén Waves | 9, 16, 55, 62, 149 |
| Thompson Philip A. - Compressible-fluid dynamics | 536n., 544 |
| Carmeli M. - Classical Fields: General Gravity and Gauge Theory | 401, 402 |
| Eringen A.C., Suhubi E.S. - Elastodynamics (vol.1) Finite motions | 211 |
| Mott N.F. - Elements of Wave Mechanics | 12, 43 |
| Geckeler S. - Optical fiber transmission systems | 68, 154, 173, 225, 333 |
| Ohanian H.C. - Classical Electrodynamics | 384, 386 |
| Sutton O.G. - Mathematics in action | 97, 115 |
| Pedrotti L.M. - Introduction to Optics | 194-97 |
| L Sirovich - Techniques of Asymptotic Analysis With 23 Illustrations | 102 |
| Messiah A. - Quantum mechanics. Volume 1 | 50-55 |
| Nouredine Z. - Quantum Mechanics: Concepts and Applications | 43-45 |
| Frenkel J. - Wave Mechanics: Advanced General Theory | 29, 230 |
| Schwartz M. - Principles of electrodynamics | 256 |
| Mott N.F., Sneddon I.N. - Wave Mechanics and Its Applications | 24 |
| Coulson C.A. - Waves: a mathematical approach to the common types of wave motion | 97, 152, 155, 157 |
| Rauch J. - Partial differential equations | 99, 102, 149, 150 |
| Ghatak A.K., Thyagarajan K. - Optical Electronics | 607 |
| Stratton J.A. - Electromagnetic Theory | 330-333, 339 |
| Eringen A.C., Suhubi E.S. - Elastodynamics (vol. 2) Linear theory | 551, 552, 557, 558 |
| Busch K., Lolkes S., Wehrspohn R.B. - Photonic Crystals. Advances in Design, Fabrication, and Characterization | 5, 239 |
| Papoulis A. - The Fourier Integral and Its Applications | 139 |
| Harnwell G.P., Livingood J.J. - Experimental Atomic Physics | 15 |
| Beard D.B. - Quantum Mechanics | 28, 65, 66 |
| John Strikwerda - Finite difference schemes and partial differential equations | 130, 190, 248 |
| Lindsay R.B. - Mechanical Radiation | 109-112 |
| Büchner J., Dum C., Scholer M. - Space Plasma Simulation | 198 |
| Wilson W. - Theoretical physics - Relativity and quantum dynamics | 193, 194, 197, 199, 250 |
| Kemble E. C. - The fundamental principles of quantum mechanics | 10-13, 20, 39, 42, 49 |
| Achmanov S.A., Nikitin S.Yu. - Physical Optics | 380 |
| Zhang K., Li D. - Electromagnetic Theory for Microwaves and Optoelectronics | 192, 216, 445 |
| Dirac P.A.M. - The Principles of Quantum Mechanics | 120 |
| McQuarrie D.A. - Statistical Mechanics | 210, 219 |
| Planck M. - Theory of light: Being volume IV of Introduction to theoretical physics | 198 |
| Richards P.I. - Manual of Mathematical Physics | 153 |
| Tzenov S.I. - Contemporary Accelerator Physics | 260, 287, 296 |
| Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky - Classical Electricity and Magnetism | 202, 209, 224, 413 |
| Wiedemann H. - Particle accelerator physics II | 170 |
| Acheson D.J. - Elementary Fluid Dynamics | 56, 69 |
| Lauterborn W., Kurz T. - Coherent optics | 217, 279, 284 |
| Lauterborn W., Kurz T. - Coherent optics | 217, 279, 284 |
| Marder M.P. - Condensed matter physics | 160, 418 |
| Beard D.B. - Quantum Mechanics | 28, 65, 66 |
| Atkins P.W., Friedman R.S. - Molecular Quantum Mechanics | 490 |
| Matt Young - Optics and Lasers: Including Fibers and Optical Waveguides | 5.2.1, 11.3.3 |
| Datta S. - Electronic transport in mesoscopic systems | 32-36 |
| Wong R. - Asymptotic approximations of integrals | 83 |
| Griffits D.J. - Introductions to electrodynamics | 399, 410 |
| Schmid P.J., Henningson D.S. - Stability and Transition in Shear Flows | 34 |
| Strang G. - Introduction to Applied Mathematics | 556, 561, 604 |
| HarrisR. - Nonclassical physics: beyond Newton's view | 106, 216-222, 446 |
| Oertel H. - Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences) | 105, 402 |
| Anderson J.L. - Principles of Relativity Physics | 271 |
| Jeffreys H. - Methods Of Mathematical Physics | 512 |
| Kruegel E. - The Physics of Interstellar Dust | 37-38 |
| Bates D.R. - Quantum Theory. I. Elements | 63 |
| Schiff L.I. - Quantum Mechanics | 16 |
| Yariv A. - Quantum Electronics | 105 |
| Stoker J. J. - Water Waves: The Mathematical Theory with Applications | 51, 170 |
| Jahne B., Haubecker H. - Computer vision and applications | 197 |
| Murray J.D. - Asymptotic Analysis | 84 |
| Ridley B.K. - Quantum Processes in Semiconductors | 47 ff |
| Hume-Rothery W. - Electrons, Atoms, Metals and Alloys | 61 |
| Lee A. - Mathematics Applied to Continuum Mechanics | 391-400 |
| Rice F.O., Teller E. - The structure of matter | 161 |
| Haus H.A. - Waves and Fields in Optoelectronics | 25, 181, 191, 192, 318 |
| Akhmanov S.A., Nikitin S.Yu. - Physical Optics | 380 |
| Dolan T.J. - Fusion Research: Principles, Experiments and Technology | 126 |
| Zory P.S. (ed.), Kelley P. (ed.), Liao P.F. (ed.) - Quantum Well Lasers | 36, 42 |
| Mattheij R.M. - Partial differential equations | 45, 565 |
| Groesen E., Molenaar J. - Continuum Modeling in the Physical Sciences (Monographs on Mathematical Modeling and Computation) | 101, 200 |
| Planck M. - Theory of light | 198 |
| Sturrock P. - Plasma Physics: An Introduction to the Theory of Astrophysical, Geophysical and Laboratory Plasmas | 15, 70, 73, 76, 89, 90, 92, 108, 135, 236, 314 |
| Sexl R., Urbantke H.K. - Relativity, Groups, Particles. Special Relativity and Relativistic Symmetry in Field and Particle Physics | 25 |
| Mackey G. - Unitary Group Representations in Physics, Probability and Number Theory | 188 |
| Wiedemann H. - Particle Accelerator Physics I: Basic Principles and Linear Beam Dynamics | 37, 41 |
| Park D. - Introduction to the Quantum Theory (Pure & Applied Physics) | 21, 47 |
| Fetter A.L., Walecka J.D. - Quantum theory of many-particle systems | 183 |
| Jackson J.D. - Classical electrodynamics | 325 |
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