| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Kogut J.B., Stephanov M.A. — The Phases of Quantum Chromodynamics: From Confinement to Extreme Environments | |
| Greiner W., Muller B., Rafelski J. — Quantum electrodynamics of strong fields | 310, 321, 449, 470 (see also “Thomas — Fermi model”) |
| Petrie A., Sabin C. — Medical Statistics at a Glance | 71 |
| Berman F., Fox G., Hey T. (eds.) — Grid Computing | see “Drug” |
| Harris R.J. — A primer of multivariate statistic | 1, 2, 247 |
| Wedgwood I. — Lean Sigma: A Practitionaer's Guide | |
| Dingle R. — Asymptotic Expansions: Their Derivation and Interpretation | 14 |
| Lukac R., Plataniotis K.N. — Color Image Processing: Methods and Applications | 158, 159 |
| Clynes M. (ed.) — Animal Cell Culture Techniques | 401, 402 |
| Jaswon M.A. — The Theory of Cohesion. An Outline of the Cohesive Properties of Electrons in Atoms, Molecules and Crystals | 67, 68, 98, 102, 113 |
| Safran S.A. — Statistical thermodynamics on surfaces, interfaces and membranes | 160 |
| Ryder L.H. — Quantum Field Theory | 347 |
| Chow W.W., Koch S.W. — Semiconductor-laser fundamentals | 116 |
| Fradkin E. — Field theories of condensed matter systems | 329 |
| Harrison W.A. — Elementary electronic structure | 287ff |
| Sommer F.T., Wichert A. (eds.) — Exploratory Analysis and Data Modeling in Functional Neuroimaging | 23 |
| Thouless D.J. — Topological quantum numbers in nonrelativistic physics | 5, 114 |
| Zagoskin A.M. — Quantum theory of many-body systems | 2—4, 83, 145 |
| Imry Y. — Introduction to Mesoscopic Physics | 84—88, 93 |
| Kadanoff L.P. — Statistical physics | 166 |
| Rammer J. — Quantum transport theory | 388 |
| Ziman J.M. — Elements of Advanced Quantum Theory | 148, 150, 152, 157, 162, 164 |
| Altmann S.L. — Band Theory of Solids: An Introduction from the Point of View of Symmetry | 7 |
| Griffits D.J. — Introduction to quantum mechanics | 190, 264—265 |
| Hughes I.S. — Elementary Particles | 303—305 |
| Born M. — Atomic Physics | 111 |
| Nagaosa N. — Quantum field theory in condensed matter physics | 101 |
| Sakai K. (ed.) — Terahertz Optoelectronics | 151 |
| Lamb C.G. — Notes on Magnetism | 61 |
| Heitler W. — Elementary Wave Mechanics With Applications to Quantum Chemistry | 98 |
| Bube R.H. — Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 344 |
| Seitz F. — Modern Theory of Solids | 261 |
| Rickayzen G. — Green's functions and condensed matter | 89—93, 122, 124—125, 165, 182, 189—193 |
| Unertl W.N. — Physical Structure | 392, 471, 472, 476 |
| Meeker W.Q., Escobar L. — Statistical Methods for Reliability Data | 270, 467, 519, 520—521 |
| Abraham Taylor — An introduction to X-ray metallography | 310, 318 |
| Nayfeh M.H., Brussel M.K. — Electricity and Magnetism | 147 |
| Pollock D.H. (ed.) — The infrared & electro-optical systems handbook. Countermeasure systems | see “Camouflage, suppression, and screening” |
| Bishop O. — Electronics: A First Course | 128 |
| Auerbach A. — Interacting electrons and quantum magnetism | 4 |
| Collins P.D., Squires E.J., Martin A.D. — Particle Physics and Cosmology | 9 |
| Griffits D. — Introduction to elementary particles | 62—64, 249, 294 |
| Dresselhaus M.S., Dresselhaus G., Avouris Ph. — Carbon nanotubes | 159, 165 |
| Deligne P., Kazhdan D., Etingof P. — Quantum fields and strings: A course for mathematicians (Vol. 1) | 575, 1237 |
| Bethe H.A., Salpeter E.E. — Quantum Mechanics of One-and-Two-Electron Atoms | 85, 297, 325, 334, 340 |
| Martin P.A. — Many-body problems and quantum field theory: an introduction | 142 |
| Aarts J.M., Nishiura T. — Dimension and Extensions (North-Holland Mathematical Library) | 259 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 9 |
| Greiner W., Reinhardt J. — Quantum electrodynamics | 188, 413 |
| Basdevant J.-L., Dalibard J. — Quantum Mechanics | 386 |
| Stahl A., Balslev I. — Electrodynamics of the Semiconductor Band Edge | 188 |
| Berne B. — Statistical Mechanics. Part A: Equilibrium Techniques | 20 |
| Fernow R.C. — Introduction to experimental particle physics | 40, 48—50, 59—61 |
| Phillips P. — Advanced Solid State Physics | 41 |
| Ashcroft N.W., Mermin N.D. — Solid State Physics | 337—345, 515—519 |
| Attard P. — Therodynamics and Statistical Mechanics: Equilibrium by Entropy Maximisation | 324, 349 |
| Thorpe M.F. (ed.), Duxbury P.M. (ed.) — Rigidity theory and applications | 385 |
| Goldenfeld N. — Lectures on Phase Transitions and the Renormalization Group | 27 |
| Akhiezer A.I., Berestetskii V.B. — Quantum electrodynamics | 392 |
| Brewer D.F. — Progress in Low Temperature Physics. Volume X | 403, 404 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 1421—1423 |
| Marder M.P. — Condensed matter physics | 213, 223, 580 |
| Davies J.H. — The physics of low-dimensional semiconductors : an introduction | 349—356 |
| Kotz S., Johnson N.L. — Breakthroughs in Statistics: Volume 2: Methodology and Distribution | 438 |
| Deligne P., Etingof P., Freed D. — Quantum fields and strings: A course for mathematicians, Vol. 2 (pages 727-1501) | 575, 1237 |
| Deligne P., Kazhdan D., Etingof P. — Quantum fields and strings: A course for mathematicians | 575, 1237 |
| Mott N.F. — Metal-insulator transitions | 24 |
| Abrikosov A.A., Gorkov L.P., Dzyalosliinski I.E. — Methods of quantum fields theory in statistical physics | 76, 187 |
| Salmhofer M. — Renormalization: an introduction | 128 |
| Ridley B.K. — Quantum Processes in Semiconductors | 145, 146, 170, 325, 328 ff, 372 ff |
| Abrikosov A.A., Gîr'kov L.P., Dzyalosiiinskh I.Yk. — Quantum field theoretical methods in statistical physics | 76, 187 |
| Kleinert H. — Gauge fields in condensed matter (part 2) | 606 |
| Kane G.L. — Modern elementary particle physics | 235 |
| Bettini A. — Introduction to Elementary Particle Physics | 187 |
| Meyer-Ortmanns H., Reisz T. — Principles of phase structures in particle physics | 448 |
| Park R., Lagally M. — Methods of Experimental Physics.Volume 22.Solid State Physics:Surfaces. | 229, 231 |
| Springford M. — Electrons at Fermi surface | 58—60, 65, 180, 188 |
| Plischke M., Bergersen B. — Equilibrium statistical physics | 480—485, 507—509 |
| Bok J., Deutscher G., Pavuna D. — The gap symmetry and fluctuations in High-Tc conductors | 50 |
| Bok J., Deutscher G., Pavuna D. — The gap symmetry and fluctuations in High-Tc conductors | 50 |
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