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Ïîèñê êíèã, ñîäåðæàùèõ: Periodic boundary conditions
| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà | | Agarwal R.P. — Difference Equations and Inequalities. Theory, Methods and Applications. | 12, 854 | | Hunter J.K., Nachtergaele B. — Applied Analysis | 250 | | Press W.H., Teukolsky S.A., Vetterling W.T. — Numerical recipes in FORTRAN77 | 850, 858 | | Zinn-Justin J. — Quantum field theory and critical phenomena | 25, 27, 29, 778, 782 | | Zinn-Justin J. — Quantum field theory and critical phenomena | 33, 36, 699 | | Fishman G.S. — Monte Carlo: concepts, algorithms, and applications | 413 | | Hayek S.I. — Advanced mathematical methods in science and engineering | 150 | | Trottenberg U., Schuller A., Oosterlee C. — Multigrid | 93, 94, 95, 119, 125, 183—185, 512 | | Wesseling P. — An introduction to multigrid methods | 5, 6, 7, 100, 103, 104, 108, 111, 112, 113, 118, 154, 162 | | Allen M.P., Tildesley D.J. — Computer simulation of liquids | 24ff, 326 | | Neta B. — Numerical solution of partial differential equations | 8 | | Frenkel D., Smit B. — Understanding Molecular Simulation: from algorithms to applications | 34 | | Vilenkin A., Shellard E.P.S. — Cosmic strings and other topological defects | 261 | | Frisch U. — Turbulence. The legacy of A.N. Kolmogorov | 14, 17 | | Parisi G. — Statistical field theory | 222, 301 | | Biscamp D. — Magnetohydrodynamic turbulence | 87 | | McCammon A.J., Harvey S. — Dynamics Of Proteins And Nucleic Acids | 45, 63 | | Chaudhry M.A., Zubair S.M. — On a Class of Incomplete Gamma Functions with Applications | 141 | | Leach A.R. — Molecular Modelling Principles and Applications | 317—319 | | Gonzalez-Miranda J.M. — Synchronization and Control of Chaos: An Introduction for Scientists and Engineers | 149, 150, 177 | | Chow W.W., Koch S.W. — Semiconductor-laser fundamentals | 17 | | Elliott R.J., Gibson A.F. — An Introduction to Solid State Physics and Its Applications | 36 | | Fradkin E. — Field theories of condensed matter systems | 287 | | Thaller B. — Visual quantum mechanics | 124 | | Harrison W.A. — Elementary electronic structure | 17, 181 | | Eschrig H. — The Fundamentals of Density Functional Theory | 18 | | Walecka J.D. — Fundamentals of statistical mechanics | 126—133, 140, 282 | | Bourgain J. — Global Solutions of Schrodinger Equations | 105, 144 | | Kadanoff L.P. — Statistical physics | 47 | | Altmann S.L. — Band Theory of Solids: An Introduction from the Point of View of Symmetry | 8 F1—2.1 | | Dorlas T.C. — Statistical mechanics, fundamentals and model solutions | 163 | | Pettifor D.G. — Bonding and structure of molecules and solids | 31 | | Rubinstein M., Colby R.H. — Polymer Physics | 392 | | Zauderer E. — Partial Differential Equations of Applied Mathematics | 186, 213 | | Greenberg M.D. — Advanced engineering mathematics | 905, 906, 907 | | Prigogine I. — Nonequilibrium statistical mechanics | 23, 37 | | Bube R.H. — Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 74 | | Seitz F. — Modern Theory of Solids | see “Born — von Karman boundary conditions” | | Unertl W.N. — Physical Structure | 803 | | Beckenbach E.F. (editor), Polya G., Lehmer D.H. and others — Applied combinatorial mathematics | 132 | | HyperChem Computational Chemistry | 62, 200 | | Kubo R. — Statistical Mechanics: An Advanced Course with Problems and Solutions | 69 | | Schiff L.I. — Quantum mechanics | 43, 49 | | Allaire G. — Numerical Analysis and Optimization: An Introduction to Mathematical Modelling and Numerical Simulation | 39 | | Kittel C. — Introduction to solid state physics | 65, 224 | | McCormick S.F. — Multigrid Methods (Frontiers in Applied Mathematics) | 163—164, 166 | | Cohen-Tannoudji C., Dupont-Roc J., Grynberg G. — Photons and atoms: introduction to quantum electrodynamic | 31 | | Hanna J.R., Rowland J.H. — Fourier Series, Transforms, and Boundary Value Problems | 53 | | Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 21, 352, 392 | | Avery J. — Creation and Annihilation Operators | 9, 100, 109 | | Stahl A. — Physics with tau leptons | 9, 100, 109 | | Antia H.M. — Numerical Methods for Scientists and Engineers | 684, 701 | | Olver P.J., Shakiban C. — Applied linear. algebra | 614, 625, 631, 636 | | Daniel C. Mattis — The theory of magnetism made simple: an introduction to physical concepts and to some useful mathematical methods | 150, 380, 422, 457, 480, 486 | | Sewell G. — Computational Methods of Linear Algebra | 6, 191 | | Basdevant J.-L., Dalibard J. — Quantum Mechanics | 75, 362 | | Berne B. — Statistical Mechanics. Part A: Equilibrium Techniques | 150 | | Tannehill J.C., Pletcher R.H., Anderson D.A. — Computational Fluid Mechanics and Heat Transfer | 94, 109 | | Attard P. — Therodynamics and Statistical Mechanics: Equilibrium by Entropy Maximisation | 356 | | Domb C., Lebowitz J.L. — Phase transitions and critical phenomena (Vol. 11) | 68 | | Hughes B.D. — Random walks and random enviroments (Vol. 1. Random walks) | 28, 161, 163, 537 | | Dekker A.J. — Solid State Physics | 50, 247, 255 | | Press W.H., Teukolsky S.A., Vetterling W.T. — Numerical recipes in Fortran 90 | 850, 858 | | Prigogine I. — Monographs in Statistical Physics And Thermodynamics. Volume 1. Non-equilibrium statistical mechanics | 23, 37 | | Domb C.M., Green M. — Phase Transitions and Critical Phenomena: Series Expansion for Lattice Models, Vol. 3 | 254, 363 | | Roepstorf G. — Path integral approach to quantum physics | 85 | | Esposito G. — Dirac Operators and Spectral Geometry | 30, 31, 82 | | Christe P., Henkel M. — Introduction to conformal invariance and its applications to critical phenomena | 38 | | Anderson J.B. — Quantum Monte Carlo: Origins, Development, Applications | 5, 8, 9, 45, 48, 54, 69, 70, 94, 102, 117, 139, 142 | | McQuarrie D.A. — Statistical Mechanics | 209 | | Henley E.M., Thirring W. — Elementary Quantum Field Theory | 5 | | Greiner W., Reinhardt J. — Field quantization | 12 | | Gould H., Tobochnik J., Christian W. — An introduction to computer simulation methods | 215, 258—261, 272, 277, 281, 320 | | Beckenbach E.F. (ed.) — Applied Combinatorial Mathematics | 132 | | Ciarlet P.G. — Mathematical elasticity. Volume II: Theory of plates | 84, 323 | | Marder M.P. — Condensed matter physics | 138 | | Biskamp D. — Magnetohydrodynamic Turbulence | 87 | | Hoover W.G. — Molecular Dynamics | 10, 63 | | Ashby N., Miller S.C. — Principles of modern physics | 316, 353, 366 | | Henkel M. — Conformal Invariance and Critical Phenomena | 64, 74, 162 | | Schiff L.I. — Quantum Mechanics | 48 | | Hartmann A.K., Rieger H. — Optimization Algorithms in Physics | 205 | | Lemm J.M., Meurant G. — Computer Solution of Large Linear Systems | 45, 46, 50, 53, 54, 178, 200, 399, 405, 409, 428, 430, 447, 450, 482, 486, 488, 557 | | Haile J.M. — Molecular Dyanmics Simualtion: Elementary Methods | 81—86, see also "Boundary conditions" | | Haile J.M. — Molecular Dyanmics Simualtion: Elementary Methods | 81—86, see also "Boundary conditions" | | Ridley B.K. — Quantum Processes in Semiconductors | 5 | | Rodberg L.S., Thaler R.M. — Introduction to the quantum theory of scattering | see "Boundary conditions" | | Loan C. — Computational Frameworks for the Fast Fourier Transform (Frontiers in Applied Mathematics) | 253 | | Groesen E., Molenaar J. — Continuum Modeling in the Physical Sciences (Monographs on Mathematical Modeling and Computation) | 95 | | Ehrenberg W. — Electric Conduction in Semiconductors and Metals | 85, 87, 96 | | Reichl L.E. — Modern Course in Statistical Physics | 381 | | Tannehill J.C., Anderson D.A., Pletcher R.H. — Computational Fluid Mechanics and Heat Transfer | 94, 109 | | Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 21, 352, 392 | | Kittel C. — Introduction to solid state physics | 120 | | Plischke M., Bergersen B. — Equilibrium statistical physics | 238, 357, 516, 518, 519 |
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