| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Wolf E.L. — Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | |
| Siegman A.E. — Lasers | 9—10 |
| Chung T.J. — Computational fluid dynamics | 9, 51, 253 |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 100 |
| Collin R.E. — Foundations for Microwave Engineerings | 32 |
| Anderson J.D.Jr. — Computational Fluid Dynamics : The Basics With Applications | 156—158 |
| Fishman G.S. — Monte Carlo: concepts, algorithms, and applications | 613 |
| Hayek S.I. — Advanced mathematical methods in science and engineering | 111, 120, 302 |
| Hoffman J.D. — Numerical Methods for Engineers and Scientists | 608 |
| Finlayson B.A. — Numerical Methods for Problems With Moving Fronts | 57, 58, 78 |
| Donea J., Huerta A. — Finite Element Methods for Flow Problems | 100 |
| Georgescu A. — Asymptotic Treatment of Differential Equations | 54 |
| Nayfeh A.H. — Perturbation Methods | 58, 77, 99, 360 |
| Pedlosky J. — Waves in the ocean and atmosphere: introduction to wave dynamics | 33, 47, 50, 52, 133, 240 |
| Levine I.N. — Molecular Spectroscopy | 131, 132—133 |
| Guenther R.D. — Modern optics | see “Propagation constant” |
| Ewing W.M., Jardetzky W.S., Press F. — Elastic waves in layered media | 13 |
| Edminister J.A. — Schaum's outline of electromagnetics | 275 |
| Thaller B. — Visual quantum mechanics | 16, 50 |
| Walecka J.D. — Fundamentals of statistical mechanics | 124 |
| Feynman R.P., Leighton R.B., Sands M. — The Feynman lectures on physics (vol.1) | 29—2 |
| Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1) | 442 |
| Altmann S.L. — Band Theory of Solids: An Introduction from the Point of View of Symmetry | see circular wave number |
| Volakis J.L., Chatterjee A., Kempel L.C. — Finite element method for elecromagnetics | 5, 14 |
| Lin C.C., Segel L.A. — Mathematics Applied to Deterministic Problems in the Natural Sciences | 380 |
| Jahne B. — Digital Image Processing | 41, 155, 556 |
| Zauderer E. — Partial Differential Equations of Applied Mathematics | 106, 644 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 404, 440—441 |
| van de Hulst H.C. — Light Scattering by Small Particles | 116 |
| Born M. — Atomic Physics | 93 |
| Fletcher C.A. — Computational Techniques for Fluid Dynamics. Vol. 1 | 61 |
| Brillouin L. — Wave Propagation in Periodic Structures | 17 |
| Forsythe W.E. — Smithsonian Physical Tables | 578, 581 |
| Davydov A.S. — Theory of Molecular Excitons | 61, (See also Wave vector) |
| Feynman R.P., Leighton R.B., Sands M. — The Feynman lectures on physics (vol.2) | I-29-2 |
| Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 4 |
| Hannan E. J. — Multiple time series | 96 |
| Nayfeh M.H., Brussel M.K. — Electricity and Magnetism | 447 |
| Mishchenko M.I. — Scattering, Absorption, and Emission of Light by Small Particles | 14 |
| Kulish V.V. — Hierarchical Methods: Hierarchy and Hierarchical Asymptotic Methods In Electrodynamics, Volume 1 | 15, 24—26, 165, 193, 295, 297 |
| Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2) | 442, 882 |
| Englert B.G. (Ed) — Quantum Mechanics | 203 |
| Meyerhof W.E. — Elements of Nuclear Physics | 16 |
| Bethe H.A., Salpeter E.E. — Quantum Mechanics of One-and-Two-Electron Atoms | 11 |
| Wolf E.L. — Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 19 |
| Goodman J.W. — Introduction to Fourier Optics | 39 |
| Avery J. — Creation and Annihilation Operators | 107, 109, 110, 111, 112, 121 |
| Stahl A. — Physics with tau leptons | 107, 109, 110, 111, 112, 121 |
| Nicolis G., Prigogine I. — Self-organization in nonequilibrium systems | 98 |
| Rao C>N> — Ultra-Violet and Visible Spectroscopy: Chemical Applications | 1 |
| Ding H., Chen W., Zhang L. — Elasticity of Transversely Isotropic Materials | 256, 285, 301, 322, 345, 387 |
| Mattheij R.M.M. — Partial differential equations: modeling, analysis, computation | 34, 261 |
| Fogiel M. — The optics problem solver | 19—45, 19—46 |
| Hume-Rothery W. — Atomic Theory for Students of Metallurgy | 8, 180 |
| Stewart I.W. — The Static and Dynamic Continuum Theory of Liquid Crystals: A Mathematical Introduction | 289 |
| Kitaigorodsky A. — Introduction to Physics | 515 |
| Measures R.M. — Laser remote sensing. Fundamentals and applications | 74 |
| Curle N., Davies H. — Modern Fluid Dynamics. Volume 1. Incompressible flow | 234 |
| Arya A.P. — Introduction to Classical Mechanics | 627 |
| Tannehill J.C., Pletcher R.H., Anderson D.A. — Computational Fluid Mechanics and Heat Transfer | 85, 110 |
| Thompson Philip A. — Compressible-fluid dynamics | 204 |
| Leverenz H.W. — An introduction to luminescence of solids | 107—109 |
| Accetta J.S. (ed.), Shumaker D.L. (ed.), Zissis J. (ed.) — The Infrared & Electro-Optical Systems Handbook. Volume 1: Sources of Radiation | 9 |
| Azaroff L.V. — Introduction to Solids | 243 |
| Pedrotti L.M. — Introduction to Optics | 175 |
| Reichenbach H. — Philosophic Foundations of Quantum Mechanics | 67 |
| Toro E.F. — Riemann Solvers and Numerical Methods for Fluid Dynamics: A Practical Introduction | 167 |
| Frenkel J. — Wave Mechanics: Advanced General Theory | 15 |
| Riley, Hobson — Mathematical Methods for Physics and Engineering | 443, 626n |
| Seitz F. — The Physics of Metals | 242, 259 |
| Eringen A.C., Suhubi E.S. — Elastodynamics (vol. 2) Linear theory | 386, 505, 512, 555 |
| Weaver H.J. — Applications of discrete and continous Fourier analysis | 10 |
| Kingslake R. — Optical System Design | 7 |
| Wilson W. — Theoretical physics - Relativity and quantum dynamics | 166 |
| Zhang K., Li D. — Electromagnetic Theory for Microwaves and Optoelectronics | 56 |
| Lighthill M. J. — Introduction to Fourier analysis and generalized functions | 8 |
| Podgorsak E. — Radiation Physics for Medical Physicists | 63 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 493, 1364 |
| Beranek L.L. — Acoustics | 26 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 345 |
| Strang G. — Introduction to Applied Mathematics | 544, 552, 554 |
| HarrisR. — Nonclassical physics: beyond Newton's view | 106 |
| Greiner W. — Classical mechanics. Systems of particles and hamiltonian dynamics | 110 |
| Mittra R., Lee S.W. — Analytical Techniques in the Theory of Guided Waves | 32 |
| Rice F.O., Teller E. — The structure of matter | 200 |
| Rodberg L.S., Thaler R.M. — Introduction to the quantum theory of scattering | 124 |
| Mattheij R.M. — Partial differential equations | 34, 261 |
| Groesen E., Molenaar J. — Continuum Modeling in the Physical Sciences (Monographs on Mathematical Modeling and Computation) | 98 |
| Feynman R., Leighton R., Sands M. — Lectures on Physics 2 | I-29-2 |
| Landau L.D., Lifshitz E.M. — Course of Theoretical Physics (vol.3). Quantum Mechanics. Non-relativistic Theory | 61, 106 |
| Hubbard B. — The World According to Wavelets: The Story of a Mathematical Technique in the Making | 97 |
| Wiedemann H. — Particle Accelerator Physics I: Basic Principles and Linear Beam Dynamics | 271 |
| Tannehill J.C., Anderson D.A., Pletcher R.H. — Computational Fluid Mechanics and Heat Transfer | 85, 110 |
| Buckmaster J. — The Mathematics of combustion | 26, 27 |
| Lin C., Segel L. — Mathematics Applied to Deterministic Problems in the Natural Sciences | 380 |
| Lin C., Segel L. — Mathematics Applied to Deterministic Problems in the Natural Sciences | 380 |
| Landau L., Sykes J. — Fluid Mechanics: Vol 6 (Course of Theoretical Physics) | 32, 254, 295, 311 |
| Lilley J.S. — Nuclear physics: principles and applications | 86, 327 |
| Lin C., Segel L. — Mathematics applied to deterministic problems in the natural sciences | 380 |
| Brandt S., Dahmen H.D. — Quantum mechanics on the personal computer | 7 |
| Georgescu A. — Asymptotic Treatment of Differential Equations (Applied Mathematics) | 54 |
| Georgescu A. — Asymptotic Treatment of Differential Equations (Applied Mathematics) | 54 |
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