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Ïîèñê êíèã, ñîäåðæàùèõ: Free energy
| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà | | Kogut J.B., Stephanov M.A. — The Phases of Quantum Chromodynamics: From Confinement to Extreme Environments | | | Cardy J. — Scaling and renormalization in statistical physics | | | Sornette D. — Critical phenomena in natural sciences | | | Dietterich T.G., Becker S., Ghahramani Z. — Advances in neural information processing systems 14 (Vol. 1 and vol. 2) | 415 | | Smith M.B., March J. — March's Advanced Organic Chemistry: Reactions, Mechanisms, and Structure | see “Energy” | | Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 340.B 402.G | | Zinn-Justin J. — Quantum field theory and critical phenomena | 533547 | | Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 387, 390 | | Di Francesco P., Mathieu P., Senechal D. — Conformal field theory | 62 | | Zinn-Justin J. — Quantum field theory and critical phenomena | 506, 519 | | Borisenko A.I., Tarapov I.E. — Vector and Tensor Analysis with Applications | 133 | | Allen M.P., Tildesley D.J. — Computer simulation of liquids | 40; (see also “Chemical potential”) | | Vilenkin A., Shellard E.P.S. — Cosmic strings and other topological defects | 39 | | Liboff R. — Kinetic Theory | 518 | | Parisi G. — Statistical field theory | 3—4, 121—123, 185, 222, 244 | | Grimmett G. — Percolation | 23 | | Huang K. — Statistical Mechanics | see Helmholtz free energy | | Safran S.A. — Statistical thermodynamics on surfaces, interfaces and membranes | 9, 59, 61, 63, 65, 73, 80 | | Honerkamp J. — Statistical Physics | 61 | | Branden C., Tooze J. — Introduction to protein structure | 90, 92, 93 | | Heermann D.W. — Computer Simulation Methods in Theoretical Physics | 70, 83 | | Feynman R.P. — Feynman Lectures on Computation | 140 | | Serre D. — Handbook of Mathematical Fluid Dynamics, Vol. 1 | 193, 197 | | Krupkova O. — The Geometry of Ordinary Variational Equations | 12 | | Mayer J.E., Mayer M.G. — Statistical Mechanics | 105—108, 438—440 (see also “Thermodynamic functions”) | | Ott E. — Chaos in dynamical systems | 310 | | Raabe D. — Computational materials science | 60, 178 | | Planck M. — Treatise on thermodynamics | 113 | | Eringen A.C. — Mechanics of continua | 171, 186, 193 | | Lander E.S., Waterman M.S. (eds.) — Calculating the Secrets of Life: Applications of the Mathematical Sciences to Molecular Biology | 154, 180, 182, 186—195 | | Finch S.R. — Mathematical constants | 394 | | Fermi E. — Thermodynamics | 77, 78 | | Thouless D.J. — Topological quantum numbers in nonrelativistic physics | 7, 20, 34, 39—44, 48, 49, 51, 56, 64, 71, 73, 93, 105 | | Yeomans J.M. — Statistical Mechanics of Phase Transitions | 16 ff., 22 | | Walecka J.D. — Fundamentals of statistical mechanics | 61, 78 | | Born M. — Natural philosophy of cause and chance (The Waynflete lectures) | 44, 61, 148, 159, 167, 186 | | Domb C., Green M.S. (eds.) — Phase Transitions and Critical Phenomena (Vol. 1) | 59, 138, 178, 180, 198, 199, 200 | | Kadanoff L.P. — Statistical physics | 7, 15, 210 | | Mihaly L., Martin M.C. — Solid state physics. Problems and solutions | 54, 190 | | Rammer J. — Quantum transport theory | 7r2 | | Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1) | 176, 180, 182 | | Toda M., Kubo R., Saito N. — Statistical Physics I: Equilibrium Statistical Mechanics, Vol. 1 | 63, 85 | | Planck M. — Introduction to Theoretical Physics | 458ff. | | Antman S.S. — Nonlinear Problems of Elasticity | 444, 446, 447, 610 | | Domb C., Lebowitz J.L. — Phase Transitions and Critical Phenomena (Vol. 19) | 265, 266, 279, 374 | | Slade G. — The Lace Expansion and Its Applications | 126 | | Ito K. — Encyclopedic Dictionary of Mathematics | 340.B, 402.G | | Galindo A., Pascual P. — Quantum Mechanics Two | II 244 | | Planck M. — Theory of electricity and magnetism,: Being volume III of Introduction to theoretical physics | 179 | | Tarakanov A.O., Skormin V.A., Sokolova S.P. — Immunocomputing. Principles and applications | 5, 13, 16, 17, 18 | | Cheremisinoff N. — Handbook of engineering polymeric materials | 304, 355, 371 | | Langmuir I. — Phenomena, Atoms and Molecules | 267, 269, 281 | | Guimaraes A.P. — Magnetism and Magnetic Resonance in Solids | 109 | | Chaisson E.J. — Cosmic Evolution: The Rise of Complexity in Nature | 17—18, 51, 54—55, 60—62, 75—77, 133—134 | | Adkins C.J. — Equilibrium Thermodynamics | 100, 103 | | Bailin D., Love A. — Introduction to Gauge Field Theory | 315 | | Kubo R., Toda M., Hashitsume N. — Statistical physics II. Nonequilibrium statistical mechanics | 11 | | Lebowitz J.L., Montroll E.W. — Nonequilibrium phenomena I. The boltzmann equation | 57, 91ff., 96, 102, 104, 115 | | Billingham J., King A.C. — Wave Motion | 241 | | Reid R.C., Prausnitz J.M., Poling B.E. — The Properties of Gases and Liquids | see “Gibbs energy” | | Baladi V. — Positive Transfer Operators And Decay Of Correlations | 19 | | Kittel C. — Introduction to solid state physics | 373 | | Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2) | 176, 180, 182 | | Planck M. — Theory of heat: Being volume V of "Introduction to theoretical physics" | 81 | | Kittel Charles, Kroemer Herbert — Thermal Physics | 163 | | Rivers R.J. — Path Integral Methods in Quantum Field Theory | 260 | | Cowan B. — Topics In Statistical Mechanics | 20, 21, 185 | | Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | 213—214, 220, 233, 258, 259, 288, 290—291, 294, 322, 403 | | Talagrand M. — Spin Glasses: A Challenge for Mathematicians | 7 | | Poole Jr.C.P., Owens F.J. — Introduction to Nanotechnology | 259 | | Douglas Clark C.Y. — The Electronic Structure and Properties of Matter: An Introductory Study of Certain Properties of Matter in the Light of Atomic Numbers, Being Volume I of a Comprehensive Treatise | 36A, Ca | | Huang K. — Introduction to Statistical Physics | 37 | | Gruener G. — Density waves in solids | 49, 109 | | Orlando T.P., Delin K.F. — Foundations of Applied Superconductivity | see Gibbs free energy and Helmholtz free energy | | Lebowitz J.L., Montroll E.W. — Nonequilibrium phenomena II. From stochastics to hydrodynamics | 86 | | Bratteli O., Robinson D.W. — Operator Algebras and Quantum Statistical Mechanics (vol. 2) | 270, 292, 295—298, 302, 347, 436, 440—443 | | Landau L.D., Lifshitz E.M. — Statistical physics (volume 5 of Course of Theoretical Physics) | 48, 49 n. | | Truesdell C.A. — The Tragicomical History of Thermodynamics, 1822-1854 | 287 | | Baker G.A., Gammel J.L. — The Padé Approximant in Theoretical Physics | 31, 115 | | Schulman L.S. — Techniques and applications of path integration | 272, 317, 326, 329 | | Mehta M.L. — Random Matrices | 65 | | ter Haar D. — Elements of Statistical Mechanics | 51, 102, 185, 197, 227, 347, 349 | | Kompaneyets A.S., Yankovsky G. — Theoretical Physics | 524 | | Kolb E.W., Turner M.S. — The Early Universe | Effective potential, 185—186, 198—200, 473—475 | | Baxter R.J. — Exactly Solved Models in Statistical Mechanics | 16—17 | | Shore S.N. — The Tapestry of Modern Astrophysics | see “Thermodynamics, free energy”, “Partition function” | | Pfeiler W. — Alloy Physics: A Comprehensive Reference | 354, 362, 381, 542, 554 | | Ambjorn J., Durhuus B., Jonsson T. — Quantum Geometry: A Statistical Field Theory Approach | 260 | | Truesdell C., Noll W. — The Non-Linear Field Theories Of Mechanics | 301 | | Daniel C. Mattis — The theory of magnetism made simple: an introduction to physical concepts and to some useful mathematical methods | 32, 215, 271, 273, 344, 347, 349, 350, 352, 353, 356, 358, 378-380, 383, 392, 395, 397-399, 422, 423, 428, 436, 442, 443, 448, 459, 460, 468, 481, 490, 491, 502, 503, 506, 512, 519, 532, 533 | | Tolman R.C. — Relativity, thermodynamics, and cosmology | 123 | | Hume-Rothery W., Raynor G.V. — The Structure of Metals and Alloys | 105, 206 | | Stewart I.W. — The Static and Dynamic Continuum Theory of Liquid Crystals: A Mathematical Introduction | 13, 14 | | Houston W.V. — Principles of Mathematical Physics | 180 | | Prigogine I. — From being to becoming: time and complexity in the physical sciences. | 80 | | Cotterill R.M.J. — Biophysics: An Introduction | 35, 39, 43, 143, 169 | | Martin R.M. — Electronic Structure: Basic Theory and Practical Methods | 60, 122, 128, 178, 381, 392 | | Grosche C., Steiner F. — Handbook of Feynman path integrals | 133 | | Berne B. — Statistical Mechanics. Part A: Equilibrium Techniques | (see Gibbs free energy, Helmholtz free energy) | | Christensen S.M. — Quantum theory of gravity | 119 | | Amit D.J. — Field theory, the renormalization group, and critical phenomena | 5—9, 15, 31, 83, 92—93, 108, 110, 134, 136, 139—143, 329, 332—335, 337 | | Hercules Proceedings (Vol. I) (unknown book) | 262, 263, 264, 266 | | Phillips P. — Advanced Solid State Physics | 328 | | Polchinski J. — String theory (volume 1). An introduction to the bosonic string | 321—322, 328 | | Eringen A.C. (ed.) — Continuum physics (vol. 4) Polar and Nonlocal Field Theories | 69, 214, 242, 264 | | Eringen A.C., Suhubi E.S. — Elastodynamics (vol.1) Finite motions | 35 | | Eliezer Sh., Ghatak A., Hora H. — Fundamentals of Equations of State | 30, 57, 75, 88 | | Attard P. — Therodynamics and Statistical Mechanics: Equilibrium by Entropy Maximisation | see "Potential, thermodynamic" | | Leverenz H.W. — An introduction to luminescence of solids | 6, 173 | | Richter K. — Semiclassical theory of mesoscopic quantum systems | 87, 89 | | Thorpe M.F. (ed.), Duxbury P.M. (ed.) — Rigidity theory and applications | 89 | | Frohlich H. — Theory of Dielectrics: Dielectric Constant and Dielectric Loss | 9 ff., 40 | | Truesdell C.A., Wang C.C. — Rational Thermodynamics | see "Energy" | | Kleinert H. — Gauge fields in condensed matter (part 4) | 877 | | Toro E.F. — Riemann Solvers and Numerical Methods for Fluid Dynamics: A Practical Introduction | 9 | | Pattabhi V., Gautham N. — Biophysics | 17, 138, 174, 193 | | Goldenfeld N. — Lectures on Phase Transitions and the Renormalization Group | 15, 25 | | Ballauff M., Wolf B.A. — Polymer Physics | 38, 41, 43, 47 | | Gallavotti G. — Statistical Mechanics | 65, 70, 183 | | Ilachinski A. — Cellular automata. A discrete universe | 327, 331, 336 | | Seitz F. — The Physics of Metals | 44ff. | | Domb C.M., Green M. — Phase Transitions and Critical Phenomena: Series Expansion for Lattice Models, Vol. 3 | 138, 141, 143, 144, 146, 149, 151, 163, 166, 167, 170, 173, 250, 252, 255, 256, 264, 290, 314, 362, 447, 459, 647 | | Weinberg S. — The Quantum Theory of Fields. Vol. 2 Modern Applications | 147 | | Shu F.H. — The Physical Universe: An Introduction to Astronomy | 62, 498—499 | | Shockley W. — Imperfections in Nearly Perfect Crystals: Symposium held at Pocono Manor | 265—287, 369, 370 | | Mayer J.E., Goeppert Mayer M. — Statistical mechanics | 105—108, 438—440, see also "Thermodynamic functions" | | Haken H. — Synergetics: an introduction | 54, 57, 179, 186 | | Israel W. (ed.) — Relativity, astrophysics and cosmology | 97 | | Brout R., Carruthers P. — Lectures on the many-electron problem (Interscience monographs and texts in physics and astronomy) | 1, 87, 134 | | Roepstorf G. — Path integral approach to quantum physics | 71, 73 | | Wurfel P. — Physics of Solar Cells: From Principles to New Concepts | 55 | | Ruelle D. — Statistical Mechanics | 56 | | Astarita G., Marrucci G. — Principles of Non-Newtonian Fluid Mechanics | 150 | | Lamb H. — Statics. Including Hydrostatics and the Elements of the Theory of Elasticity | 257, 271 | | Christe P., Henkel M. — Introduction to conformal invariance and its applications to critical phenomena | 3, 5, 22, 38, 42, 49, 104, 128, 187, 221 | | Greiner W., Neise L., Stöcker H. — Thermodynamics and statistical mechanics | 91 | | Richards P.I. — Manual of Mathematical Physics | 34 | | Choquard P.F. — The anharmonic crystal | 18 | | Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 100 | | Ercolani N.M., Gabitov I.R., Levermore C.D. — Singular limits of dispersive waves | 316, 319 | | Ambjorn J., Durhuus B., Jonsson T. — Quantum Geometry. A Statistical Field Theory Approach | 260 | | Rubinstein I. — Electro-diffusion of ions | 52 | | Dugdale J.S. — Entropy and its Physical Meaning | 50—53, 104, 106, 124—125, 148, 156 | | Callen H.B. — Thermodynamics | see "Gibbs function", "Helmholtz potential" | | Benfatto G., Gallavotti G. — Renormalization Group | 9 | | Silhavy M. — The Mechanics and Thermodynamics of Continuous Media | 77, 194 | | Truesdell C — Rational Thermodynamics | see "Energy" | | Thirring W., Harrell E.M. — Quantum Mathematical Physics. Atoms, Molecules and Large many-body Systems | 348 | | Henkel M. — Conformal Invariance and Critical Phenomena | 5, 40, 63, 68, 76, 191, 279, 301, 322, 325 | | Kruegel E. — The Physics of Interstellar Dust | 165ff | | Greiner W., Neise L., Stocker H. — Thermodynamics and statistical mechanics | 91 | | Vafa C., Zaslow E. — Mirror symmetry | 154 | | Streater R.F. — Statistical Dynamics: A Stochastic Approach to Nonequilibrium Thermodynamics | 9, 49, 91, 96, 102, 110, 116 | | Sommerfeld A. — Thermodynamics and Statistical Mechanics | 42f., 53 | | Saha M.N., Srivastava B.N. — A treatise on heat: Including kinetic theory of gasses, thermodynamics and recent advances in statistical thermodynamics | 342 | | Abrikosov A.A., Gorkov L.P., Dzyalosliinski I.E. — Methods of quantum fields theory in statistical physics | 252 | | Hartmann A.K., Rieger H. — Optimization Algorithms in Physics | 74, 78 | | Israel W. (ed.) — Relativity, astrophysics and cosmology | 97 | | Kubo R. — Thermodynamics | 147 | | Zeidler E. — Oxford User's Guide to Mathematics | 494 | | Lemm J.C. — Bayesian field theory | 7, 23—26, 32, 326, 329, 330 | | Israel W. — Relativity, Astrophysics and Cosmology | 97 | | Wilson A.H. — The Theory of Metals | 160, 164, 329 | | Hoselitz K. — Ferromagnetic Properties of Metals and Alloys | 103f | | Haile J.M. — Molecular Dyanmics Simualtion: Elementary Methods | 63, 243—244, 304—305, see also "Chemical potential" | | Hume-Rothery W. — Electrons, Atoms, Metals and Alloys | 294 | | Binder K., Heermann D.W. — Monte Carlo Simulation in Statistical Physics | 140 | | Glimm J., Jaffe A. — Quantum Physics: A Functional Integral Point of View | 33, 34, 65, 66, 68ff, 230, 231ff, 254, 273, 407, 412ff | | ter Haar D. — Elements of Statistical Mechanics | 51, 102, 185, 197, 227, 347, 349 | | Abrikosov A.A., Gîr'kov L.P., Dzyalosiiinskh I.Yk. — Quantum field theoretical methods in statistical physics | 252 | | Malyshev V.A., Minlos R.A. — Gibbs Random Fields: Cluster Expansions (Mathematics and its Applications) | 81 | | Slater J., Frank N. — Introduction to Theoretical Physics | 458ff. | | Shu-Ang Zhou — Electrodynamics of solids and microwave superconductivity | 322 | | Davies P. — The New Physics | 212, 224, 268 | | Kleinert H. — Gauge fields in condensed matter (part 2) | 274, 302, 456, 523 | | Mackey G. — Unitary Group Representations in Physics, Probability and Number Theory | 280, 290 | | Meyer-Ortmanns H., Reisz T. — Principles of phase structures in particle physics | 17, 172 | | Reichl L.E. — Modern Course in Statistical Physics | see "Thermodynamic potential" | | Krall N., Trivelpiece A. — Principles of Plasma Physics | 63—65, 445 | | Bellac M. — Thermal Field Theory (Cambridge Monographs on Mathematical Physics) | 30, 38, 42 | | Badii R., Politi A. — Complexity: Hierarchical structures and scaling in physics | 59, 124 | | Kalckar J. — Foundations of Quantum Physics I (1926 - 1932), Volume 6 | 326, 449, 453 | | Honerkamp J. — Statistical physics: an advanced approach with applications | 61 | | Ferziger J.H., Kaper H.G. — Mathematical theory of transport processes in gases | 101 | | Voit E. — Computational Analysis of Biochemical Systems: A Practical Guide for Biochemists and Molecular Biologists | 27 |
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