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Ïîèñê êíèã, ñîäåðæàùèõ: Optical theorem
| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà | | Taylor M.E. — Partial Differential Equations. Qualitative studies of linear equations (vol. 2) | 162, 200 | | Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 386.B | | Mahan G.D. — Many-particle physics | 248 | | Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 510 | | Pugovecki E. — Quantum mechanics in hilbert space | 480 | | Prugovecki E. — Quantum Mechanics in Hilbert Space | 513 | | Reed M., Simon B. — Methods of Modern mathematical physics (vol. 3) Scattering theory | 111 | | Bohren C.F., Huffman D.R. — Absorption and Scattering of Light by Small Particles | 71, 73 | | Aitchison I.J.R., Hey A.J.G. — Gauge theories in particle physics. Volume 1: from relativistic quantum mechanics to QED | 323, 374 | | Ramond P. — Field Theory: A Modern Primer | 211 | | Ito K. — Encyclopedic Dictionary of Mathematics | 386.B | | Galindo A., Pascual P. — Quantum Mechanics Two | I 157, II 26, 40, 47, 82 | | Frampton P. — Dual Resonance Models and Superstrings | 7, 20, 27 | | Ramond P. — Field Theory: A modern Primer | 156 | | Bethe H.A., Jackiw R. — Intermediate Quantum Mechanics | 276 | | Barone V., Predazzi E. — High-energy particle diffraction | 17, 28, 60 | | Greiner W., Schramm S., Stein E. — Quantum chromodynamics | 310, 316, 324 | | Bailin D., Love A. — Introduction to Gauge Field Theory | 151 | | Rickayzen G. — Green's functions and condensed matter | 108 | | Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 259 | | Heer C.V. — Statistical Mechanics: Kinetic, Theory and Stochastic Process | 130 | | Mishchenko M.I. — Scattering, Absorption, and Emission of Light by Small Particles | 49, 56, 58, 207 | | Stone M. — The physics of quantum fields | 48 | | Galindo A., Pascual P. — Quantum Mechanics One | 157 | | Englert B.G. (Ed) — Quantum Mechanics | 371 | | Collins P.D., Squires E.J., Martin A.D. — Particle Physics and Cosmology | 29 | | Weinberg S. — The Quantum Theory of Fields. Vol. 1 Foundations | 148 | | Aldrovandi R. — Special matrices of mathematical physics (stochastic, circulant and bell matrices) | 60 | | Arias J.M., Lozano M. — The Hispalensis Lectures On Nuclear Physics, Vol. 2 | 5 | | Park D. — Introduction to the quantum theory | 340, 351, 368 | | Bernstein R.B. — Atom-Molecule Collision Theory: Guide for the Experimentalist | 146, 177, 322, 326 | | Ike E.R., Sabatier P.C. (Ed) — Scattering: Scattering and Inverse Scattering in Pure and Applied Science | 62, 200 | | Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 29 | | Greiner W. — Classical electrodynamics | 402 | | Economou E.N. — Green's Functions in Quantum Physics | 63, 66, 73, 161 | | Bates D.R. — Quantum Theory | 362 | | Shankar R. — Principles of quantum mechanics | 548, 555 | | Siegel W. — Fields | VIIA4,6, VIIIC3 | | Murrel J.N., Bosanac S.D. — Introduction to the Theory of Atomic and Molecular Collisions | 49 | | Weinberg S. — Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity | 276, 277 | | Hercules Proceedings (Vol. I) (unknown book) | 132 | | Fernow R.C. — Introduction to experimental particle physics | 370 | | Bogoliubov N.N., Shirkov D.V. — Introduction to the Theory of Quantized Fields | 544 | | Tsang L., Kong J.A., Ding K.- H. — Scattering of electromagnetic waves (Vol 1. Theories and applications) | 68, 72, 87, 100, 273 (see also Forward scattering theorem) | | Tsang L., Kong J.A., Ding K.- H. — Scattering of electromagnetic waves (Vol 2. Numerical simulations) | 28, 29, 374, 379, 386, 389, 394, 672, see also "Forward scattering theorem" | | Ohanian H.C. — Classical Electrodynamics | 495 | | Nouredine Z. — Quantum Mechanics: Concepts and Applications | 612 | | Schwartz M. — Principles of electrodynamics | 300 | | Akhiezer A.I., Berestetskii V.B. — Quantum electrodynamics | 41, 796 | | Amrein W.O., Sinha K.B., Jauch J.M. — Scattering Theory in Quantum Mechanics: Physical Principles and Mathematical Methods | 291, 512, 628 | | Nishijima K. — Fundamental particles | 121 | | Bethe H., de Hoffmann F. — Mesons and fields. Volume 2. Mesons | 76, 78 | | Bohr A., Mottelson B.R. — Nuclear Structure (Vol. 1): Single-Particle Motion | 167 | | Siegel W. — Fields | VIIA4, 6, VIIIC3 | | Bransden B., Joachain C. — Physics of Atoms and Molecules | 468, 474, 496 | | Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 422 | | Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 481 | | Leader E., Predazzi E. — An introduction to gauge theories and modern particle physics | 1.329 | | Mandl F. — Quantum mechanics | 172 | | Forschaw J.R., Ross D.A. — Quantum chromodynamics and the pomeron | 4, 15, 21, 140, 212 | | Kallen G. — Elementary particle physics | 17, 107 | | Koonin S.E., Meredith D.C. — Computational Physics-Fortran Version | 100 | | Tsang L., Kong J.A. — Scattering of electromagnetic waves (Vol 3. Advanced topics) | 158, see also "Forward scattering theorem" | | Kruegel E. — The Physics of Interstellar Dust | 47ff | | Bates D.R. — Quantum Theory. I. Elements | 362 | | Schiff L.I. — Quantum Mechanics | 137, 342, 360 | | Adler S.L. — Quaternionic Quantum Mechanics and Quantum Fields | see "S-matrix, unitarity of" | | Ticciati R. — Quantum field theory for mathematicians | 132 | | Migdal A.B., Krainov V. — Approximation Methods in Quantum Mechanics | 20 | | Sakurai J.J. — Modern quantum mechanics | 390—392 | | Rodberg L.S., Thaler R.M. — Introduction to the quantum theory of scattering | 9, 10, 22, 25, 33, 146, 183—186, 226, 235—237, 242, 293—295 | | Farina J.E.G. — Quantum theory of scattering processes | 19, 145—146 | | Yao W-M — Review of particle physics | 323 | | Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 29 | | Park D. — Introduction to the Quantum Theory (Pure & Applied Physics) | 340, 351, 368 | | Corciovei A., Costache G., Dederichs P.H. — Solid State Physics | 190—191 | | Liboff R.L. — Introductory quantum mechanics | 611 |
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