Streater R.F. Statistical dynamics: a stochastic approach to nonequilibrium thermodynamics. - 2nd ed. - London: Imperial College Press; Hackensack: Distributed by World Scientific, 2009. - x, 382 p.: ill. - Bibliogr.: p.367-376. - Ind.: p.377-382. - ISBN-10 1-84816-250-2; ISBN-13 978-1-84816-250-1  Место хранения:   015 | Библиотека Института гидродинамики CO РАН | Новосибирск

Оглавление / Contents

Preface ......................................................... v Classical Statistical Dynamics .................................. 1 1 Introduction ................................................. 3 2 Probability Theory .......................................... 13 2.1 Sample Spaces and States ............................... 13 2.2 Random Variables, Algebras ............................. 24 2.3 Entropy ................................................ 34 2.4 Exercises .............................................. 39 3 Linear Dynamics ............................................. 43 3.1 Reversible Dynamics .................................... 43 3.2 Random Dynamics ........................................ 48 3.3 Convergence to Equilibrium ............................. 60 3.4 Markov Chains .......................................... 66 3.5 Exercises .............................................. 69 4 Isolated Dynamics ........................................... 73 4.1 The Boltzmann Map ...................................... 73 4.2 The Heat-Particle ...................................... 87 4.3 The Hard-Core Model of Chemical Kinetics ............... 94 4.3.1 Isomers and Diffusion in a Force-Field .......... 95 4.3.2 Markov Dynamics ................................ 100 4.3.3 Entropy Production ............................. 102 4.3.4 Osmosis ........................................ 103 4.3.5 Exchange Diffusion ............................. 104 4.3.6 General Diffusions ............................. 105 4.4 Chemical Reactions .................................... 106 4.4.1 Unimolecular Reactions ......................... 106 4.4.2 Balanced Reactions ............................. 107 4.5 Energy of Solvation ................................... 111 4.6 Activity-led Reactions ................................ 111 4.7 Exercises ............................................. 119 5 Isothermal Dynamics ........................................ 123 5.1 Legendre Transforms ................................... 124 5.2 The Free-energy Theorem ............................... 126 5.3 Chemical Kinetics ..................................... 130 5.4 Convergence in Norm ................................... 137 5.5 Dilation of Markov Chains ............................. 146 5.6 Exercises ............................................. 149 6 Driven Systems ............................................. 151 6.1 Sources and Sinks ..................................... 151 6.2 A Poor Conductor ...................................... 152 6.3 A Driven Chemical System .............................. 155 6.4 How to Add Noise ...................................... 162 6.5 Exercises ............................................. 165 7 Fluid Dynamics ............................................. 167 7.1 Hydrostatics of a Gas of Hard Spheres ................. 168 7.2 The Fundamental Equation .............................. 171 7.3 The Euler Equations ................................... 177 7.4 Entropy Production .................................... 178 7.5 A Correct Navier-Stokes System ........................ 181 Quantum Statistical Dynamics .................................. 187 8 Introduction to Quantum Theory ............................. 189 9 Quantum Probability ........................................ 197 9.1 Algebras of Observables ............................... 197 9.2 States ................................................ 204 9.3 Quantum Entropy ....................................... 213 9.4 Exercises ............................................. 217 10 Linear Quantum Dynamics .................................... 221 10.1 Reversible Dynamics ................................... 221 10.2 Random Quantum Dynamics ............................... 224 10.3 Quantum Dynamical Maps ................................ 228 10.4 Exercises ............................................. 236 11 Isolated Quantum Dynamics .................................. 237 11.1 The Quantum Boltzmann Map ............................. 237 11.2 The Quantum Heat-Particle ............................. 240 11.3 Fermions and Ions with a Hard Core .................... 256 11.4 The Quantum Boltzmann Equation ........................ 272 11.5 Exercises ............................................. 281 12 Isothermal and Driven Systems .............................. 283 12.1 Isothermal Quantum Dynamics ........................... 283 12.2 Convergence to Equilibrium ............................ 289 12.3 Driven Quantum Systems ................................ 292 12.4 Exercises ............................................. 296 13 Infinite Systems ........................................... 297 13.1 The Algebra of an Infinite System ..................... 299 13.2 The Reversible Dynamics ............................... 300 13.3 Return to Equilibrium ................................. 302 13.4 Irreversible Linear Dynamics .......................... 306 13.5 Exercises ............................................. 309 14 Proof of the Second Law .................................... 311 14.1 von Neumann Entropy ................................... 311 14.2 Entropy Increase in Quantum Mechanics ................. 312 14.3 The Quantum Kac Model ................................. 314 14.4 Equilibrium ........................................... 315 14.5 Thee-Limit ............................................ 316 14.6 The Marginals and Entropy ............................. 316 14.7 The Results ........................................... 317 15 Information Geometry ....................................... 319 15.1 The Jaynes-Ingarden Theory ............................ 319 15.2 Non-Linear Ising Dynamics ............................. 322 15.3 Ising Model Close to Equilibrium ...................... 327 15.4 Non-linear Heisenberg Model ........................... 329 15.5 Estimation; the Cramer-Rao Inequality ................. 333 15.6 Efron, Dawid and Amari ................................ 337 15.7 Entropy Methods, Exponential Families ................. 340 15.8 The Work of Pistone and Sempi ......................... 341 15.9 The Finite-Dimensional Quantum Info-Manifold .......... 346 15.10 Araki's Expansionals and the Analytic Manifold ....... 352 15.11 The Quantum Young Function ........................... 354 15.12 The Quantum Cramér Class ............................. 359 15.13 The Parameter-Free Quantum Manifold .................. 360 15.14 Exercises ............................................ 364 Bibliography .................................................. 367 Index ......................................................... 377