Verfügbarkeit: Intermediate statistical mechanics

Intermediate statistical mechanics:

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Hauptverfasser:	Bhattacharjee, Jayanta K. (VerfasserIn), Banerjee, Dhruba (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New Jersey ; London ; Singapore ; Beijing ; Shanghai ; Hong Kong ; Taipei ; Chennai ; Tokyo World Scientific [2016] [New Delhi] Hindustan Book Agency
Schlagworte:	Statistische Physik Lehrbuch
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Literaturverzeichnis: Seiten 405-412
Beschreibung:	xiv, 423 Seiten Diagramme
ISBN:	9789813201149

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Datensatz im Suchindex

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adam_text	Contents /1 Preface v Acknowledgments vii 1 Statistical Mechanics: The Basics X 1.1 Prom Micro to Macro......................................... 1 1.2 Equilibrium Distribution.................................. 8 1.3 Boltzmann’s Hypothesis...................................... 9 1.4 Dynamics, Dynamical Systems and Chaos...................... 12 1.5 The Prevalence of Chaos ................................... 20 1.6 Quantum Dynamics........................................... 23 1.7 Problems for Chapter 1..................................... 26 2 The Microcanonical Ensemble 27 2.1 Examples................................................... 27 2.1.1 The Ideal Gas......................................... 27 2.1.2 An ideal solid......*............................... 29 2.1.3 General oscillators................................... 30 2.1.4 Magnetic moments in an external field................. 32 2.1.5 The quantum solid..................................... 34 2.1.6 The quantum free particle............................. 37 2.2 Additivity of Entropy and Microcanonical Ensemble.......... 38 2.3 Shannon Entropy ........................................... 40 2.4 Problems for Chapter 2................................... 41 3 Other Ensembles 43 3.1 Canonical Ensemble......................................... 43 3.2 Alternative Derivation..................................... 48 3.3 Varying Number of Particles................................ 51 3.4 Grand Canonical Ensemble................................... 53 3.5 Energy Fluctuation in Grand Canonical Ensemble............. 55 3.6 Physical Interpretation of Q . ............................ 57 3.7 Problems for Chapter 3..................................... 58 61 61 62 65 66 66 67 68 68 68 69 73 76 77 77 78 80 81 83 87 91 91 95 100 105 106 110 111 113 116 119 119 120 121 Non-interacting Systems 4.1 Calculational Procedure for Canonical Ensemble . 4.2 Ideal Gas....................................... 4.3 Ideal Gas in Grand Canonical Ensemble........... 4.4 Space-dependent Distribution.................... 4.4.1 In a Gravitational Potential............... 4.4.2 In a Centrifuge............................ 4.5 Oscillators in Contact with Heat Bath ....... 4.5.1 Classical Oscillators...................... 4.5.2 Quantum Oscillators........................ 4.6 Specific Heat of Solids......................... 4.7 Model for Paramagnetism......................... 4.8 Electronic Energy in a Monoatomic Gas........... 4.9 Diatomic Molecules.............................. 4.9.1 Heteronuclear Molecules.................... 4.9.2 Homonuclear Molecules...................... 4.10 Solid-vapour Equilibrium........................ 4.11 Saha Ionization Formula......................... 4.12 Statistical Mechanics of Powders (Edwards’ Model) 4.13 Problems for Chapter 4.......................... Interacting Classical Systems 5.1 The Non-ideal Gas............................... 5.2 Linked Cluster Expansion........................ 5.3 Van der Waals Equation of State................. 5.4 Existence of Phase Transitions.................. 5.5 Correlation Functions........................... 5.6 Ising Model..................................... 5.6.1 Exact Solution in One Dimension............ 5.6.2 Approximate Method for Any Dimensions . . 5.7 Problems for Chapter 5 ......................... Quantum Statistics 6.1 Introduction.................................... 6.2 Quantum Distribution Functions.................. 6.2.1 Fermions................................... 6.2.2 Bosons..................................... 6.3 Equation of State............................... 6.4 Entropy of the Quantum Ideal Gas................ 6.5 Chemical Potential in Two Dimensions............ 6.6 Problems for Chapter 6.......................... Contents xi 7 Fermi Distribution: Examples 135 7.1 Degenerate Fermi Gas........................................ 135 7.2 White Dwarfs................................................ 136 7.3 Specific Heat of an Electron Gas......................... 140 7.4 One Dimensional Metal: Effect of Periodic Lattice Structure 143 7.4.1 Energy Levels for a Periodic Potential................ 143 7.4.2 Fermi Level and Density of States................... 146 7.4.3 Specific Heat.......................................... 147 7.4.4 Peierls’ Instability................................... 148 7.5 Emission of Electrons from a Metal Surface.................. 150 7.6 Correlations in a Fermi Gas............................... . 152 7.7 Electrons in Graphene ...................................... 153 7.7.1 The Tight-binding Approximation........................ 154 7.7.2 Application to Graphene................................ 157 7.8 Problems for Chapter 7..................................... 161 8 Electrons in a Magnetic Field 163 8.1 Introduction................................................ 163 8.2 Magnetic Properties at T = 0............................... 165 8.2.1 Intrinsic Magnetic Moment.............................. 166 8.2.2 Orbital Magnetic Moment................................ 168 8.3 Magnetic Properties at T » TF .............................. 170 8.4 De Haas - Van Alphen Effect: T — 0.......................... 171 8.5 Quantum Hall Effect......................................... 172 8.5.1 Integer Hall Effect.................................... 172 8.5.2 Fractional Hall effect................................. 179 9 Bose-Einstein Distribution: Examples 181 9.1 Bose-Einstein Condensation.................................. 181 9.1.1 The Condensation Point................................. 181 9.1.2 Order of the Transition................................ 183 9.1.3 Near the Transition Point.............................. 186 9.1.4 Experimental Observation of the Transition: Bosons in a Trap................................................... 190 9.1.5 Interaction Effects in BEC............................. 193 9.2 Two Important Phenomena..................................... 195 9.2.1 Black Body Radiation and Stefan-Boltzmann law .... 195 9.2.2 Casimir Effect ........................................ 199 9.3 Superfluidity of Helium-4................................... 200 9.3.1 General Characteristics................................ 200 9.3.2 The Energy Spectrum.................................... 203 9.3.3 Occurrence of Superfluidity............................ 206 9.4 Problems for Chapter 9...................................... 208 xii Contents 10 Superconductivity 211 10.1 Introduction............................................... 211 10.2 Pairing Theory: Qualitative............................... 213 10.3 Origin of the Attractive Interaction....................... 221 10.4 Cooper Instability......................................... 223 10.5 A Different Pairing: High Temperature Superconductivity in Cuprates................................................... 225 11 Phase Transitions 231 11.1 Introduction............................................... 231 11.2 Transfer Matrix for the 2D Ising Model..................... 234 11.2.1 The Conversion to a Quantum Problem.................. 234 11.2.2 The Transition Temperature ........................... 238 11.2.3 The Specific Heat .................................... 241 11.3 Planar Model and Heisenberg Model.......................... 244 11.4 Statistical Mechanics and Field Theory..................... 246 11.5 Kac-Hubbard-Stratonovich Transformation.................... 250 11.6 Critical Phenomena: Scaling Laws........................... 252 12 Landau Theory and Related Models 259 12.1 Landau Theory.............................................. 259 12.2 The Gaussian Model......................................... 263 12.3 The Spherical Limit........................................ 264 13 The Renormalization Group 269 13.1 Renormalization Group in Real Space........................ 269 13.1.1 Introduction ....................................... 269 13.1.2 One-dimensional Ising Model......................... 271 13.1.3 Two-dimensional Ising Model......................... 273 13.2 Renormalization Group in Momentum Space.................... 276 13.3 Fixed Points and Scaling Laws.............................. 277 13.4 Application to the Gaussian Model........................ 282 13.5 Application to the Landau-Ginzburg Model................... 283 14 Disordered Systems 291 14.1 Introduction............................................... 291 14.2 Models with Quenched Disorder.............................. 293 14.3 Electron Localization in Disordered Systems................ 298 15 Transport Equation - I 305 15.1 Introduction............................................... 305 15.2 Distribution Function...................................... 306 15.3 In the Absence of Collisions............................... 307 15.4 In the Presence of Collisions.............................. 309 Contents xiii 16 Transport Equation - II 315 16.1 Introduction.............................................. 315 16.2 Interaction without Collisions............................ 316 16.3 Collisions with Fixed Scatterers ........................ . 319 16.4 Binary Collisions.......................................... 322 16.5 The H-theorem.............................................. 326 17 Transport Equation - III 327 17.1 A Theorem.................................................. 327 17.2 Transport Equation for Conserved Quantities................ 328 17.3 Equations of Hydrodynamics................................. 331 18 Transport Equation - IV 335 18.1 Form of the Transport Equation for Quantum Particles . . . 335 18.1.1 Fermions ............................................. 336 18.1.2 Bosons............................................... 336 18.2 Equilibrium Distribution................................... 337 18.3 Approach to Equilibrium (F^O but no Collisions) ........... 339 18.4 Effect of Collisions in a Fermion Gas...................... 340 18.5 Collision Term for Bosons.................................. 344 19 Metastable States 347 19.1 Introduction............................................... 347 19.2 A Phenomenological Approach................................ 348 19.3 Decay of Metastable States ................................ 350 19.4 Beyond Metastability: Glasses.............................. 352 20 Langevin Equations 357 20.1 Introduction............................................... 357 20.2 An Example with Oscillators................................ 358 20.3 Gaussian Distribution and the Central Limit Theorem .... 360 20.4 Langevin Equation.......................................... 365 20.5 Langevin Equation and Equilibrium.......................... 367 20.6 Brownian Motion ........................................... 369 20.7 Quantum Langevin Equation................................. 375 21 Fokker-Planck Equations 379 21.1 Introduction............................................... 379 21.2 Fokker-Planck Equation: Derivation......................... 380 21.3 The General Solution....................................... 383 21.4 Metastable State and the Lowest Eigenvalue................. 387 21.5 Passage to Equilibrium of a Non-equilibrium State.......... 389 21.5.1 Regime - I: Diffusion................................. 391 21.5.2 Regime - II: “Scaling” or “Sliding”................... 392 21.5.3 Regime-Ill: Kramers .................................. 393 21.6 Diffusion in a Periodic Potential.......................... 394 xiv Contents 22 Fluctuation Dissipation Theorem 397 22.1 Introduction............................................... 397 22.2 The General Case........................................... 398 22.3 Jarzynski Equality........................................ 403 References 405 Index 413 In this new textbook, a number of unusual applications are discussed in addition.to the usual topics covered in a course on Statistical Physics. Examples are: statistical mechanics of powders, Peierls instability, graphene, Bose-Einstein condensates in a trap, Casimir effect and the quantum Hall effect. Superfluidity and super-conductivity (including the physics of high-temperature superconductors) have also been discussed extensively. The emphasis on the treatment of these topics is pedagogic, introducing the basic tenets of statistical mechanics, with extensive-and thorough discussion of the postulates, ensembles, and the relevant statistics. Many standard examples illustrate the microcanonical, canonical and grand canonical ensembles, as well as the Bose- Einstein and Fermi-Dirac statistics. A special feature of this text is the detailed presentation of the theory of second-order phase transitions and the renormalization group, emphasizing the role of disorder. Non-equilibrium statistical physics is introduced via the Boltzmann transport equation. Additional topics covered here include metastability, glassy systems, the Langevin equation, Brownian motion, and the Fokker-Planck equation. ■ Graduate students will find the presentation readily accessible, since the topics have been treated with great deal of care and attention to detail. 4» % World Scientific www.worldscientific.com - 10312 he . ISBN 978-981-3201-14-9
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spelling	Bhattacharjee, Jayanta K. Verfasser aut Intermediate statistical mechanics Jayanta Bhattacharjee (Harish-Chandra Research Institute, Allahabad, India), Dhruba Banerjee (Jadavpur University, India) New Jersey ; London ; Singapore ; Beijing ; Shanghai ; Hong Kong ; Taipei ; Chennai ; Tokyo World Scientific [2016] [New Delhi] Hindustan Book Agency xiv, 423 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Literaturverzeichnis: Seiten 405-412 Statistische Physik (DE-588)4057000-9 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Statistische Physik (DE-588)4057000-9 s DE-604 Banerjee, Dhruba Verfasser aut Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029775858&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029775858&sequence=000002&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Bhattacharjee, Jayanta K. Banerjee, Dhruba Intermediate statistical mechanics Statistische Physik (DE-588)4057000-9 gnd
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title	Intermediate statistical mechanics
title_auth	Intermediate statistical mechanics
title_exact_search	Intermediate statistical mechanics
title_full	Intermediate statistical mechanics Jayanta Bhattacharjee (Harish-Chandra Research Institute, Allahabad, India), Dhruba Banerjee (Jadavpur University, India)
title_fullStr	Intermediate statistical mechanics Jayanta Bhattacharjee (Harish-Chandra Research Institute, Allahabad, India), Dhruba Banerjee (Jadavpur University, India)
title_full_unstemmed	Intermediate statistical mechanics Jayanta Bhattacharjee (Harish-Chandra Research Institute, Allahabad, India), Dhruba Banerjee (Jadavpur University, India)
title_short	Intermediate statistical mechanics
title_sort	intermediate statistical mechanics
topic	Statistische Physik (DE-588)4057000-9 gnd
topic_facet	Statistische Physik Lehrbuch
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