An upper-level text on the physics of long-range interactions. The first two parts describe the theoretical and computational instruments needed to study both the equilibrium and dynamical properties of systems subject to long-range forces. The third part is devoted to applications of such techniques to the most relevant examples of such systems.
An upper-level text on the physics of long-range interactions. The first two parts describe the theoretical and computational instruments needed to study both the equilibrium and dynamical properties of systems subject to long-range forces. The third part is devoted to applications of such techniques to the most relevant examples of such systems.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
A. Campa is Senior Scientist at the Health and Technology Department of the Istituto Superiore di Sanità, Roma (Italy). He holds a Laurea in Physics (University of Roma "La Sapienza") and a Ph.D. in Physics (The Rockefeller University, New York, USA). His activities are in statistical physics, nonlinear dynamics, radiation physics, and modelling of ionizing radiation effects on biological systems. He worked as a postdoc of the Italian National Institute of the Physics of Matter (INFM) and he is now associated to the Italian National Institute of Nuclear Physics (INFN). T. Dauxois is a CNRS Research Director at the Ecole Normale Supérieure de Lyon (France). His scientific activity is in nonlinear physics and statistical physics, with applications to condensed matter and hydrodynamics. He was the Head of Graduate Studies in Physics (M2) at ENS-Lyon (2005-11), Chairman of the Committee for Theoretical Physics in CNRS (2010-12) and is now Director of the Physics Laboratory at ENS de Lyon. D. Fanelli is Associate Professor in the Department of Physics and Astronomy at the University of Florence (Italy). Fanelli's research interests fall in the realm of statistical mechanics and nonlinear physics, with applications to biology and biophysics. He holds a Laurea in Physics (University of Florence) and a Ph.D. In Numerical Analysis and Computer Science (KTH, Stockholm). He worked as a postdoc and researcher at the Karolinska Institute in Stockholm and as permanent staff member (Lecturer in Theoretical Physics) at the University of Manchester. He was also awarded the prestigious "Rientro dei Cervelli" grant. S. Ruffo is a Full Professor in the Department of Physics and Astronomy of the University of Florence (Italy). His scientific activity is in the field of statistical and nonlinear physics. He is an editor of 'Communications in Nonlinear Science and Numerical Simulations'. He has been Weston Visiting Professor at The Weizmann Institute of Science, Department of Physics of Complex Systems (2009-2010) and "Chaire d'Excellence ANR" at the Physics Laboratory of ENS-Lyon (2010-13). He is the Chairman of the C3 Commission (Statistical Physics) of IUPAP.
Inhaltsangabe
* PART I: STATIC AND EQUILIBRIUM PROPERTIES * 1: Basics of statistical mechanics of short-range interacting systems * 2: Equilibriumstatistical mechanics of long-range interactions * 3: The large deviations method and its applications * 4: Solutions of mean field models * 5: Beyond mean-field models * 6: Quantum long-range systems * PART II: DYNAMICAL PROPERTIES * 7: BBGKY hierarchy, kinetic theories and the Boltzmann equation * 8: Kinetic theory of long-range systems: Klimontovich, Vlasov and Lenard-Balescu equations * 9: Out-of-equilibrium dynamics and slow relaxation * PART III: APPLICATIONS * 10: Gravitational systems * 11: Two-dimensional and geophysical fluid mechanics * 12: Cold Coulomb systems * 13: Hot plasma * 14: Wave-particles interaction * 15: Dipolar systems * Appendix A: Features of the main models studied throughout the book * Appendix B: Evaluation of the Laplace integral outside the analyticity strip * Appendix C: The equilibrium form of the one-particle distribution function in short-range interacting systems * Appendix D: The differential cross section of a binary collision * Appendix E: Autocorrelation of the fluctuations of the one-particle density * Appendix F: Derivation of the Fokker-Planck coefficients
* PART I: STATIC AND EQUILIBRIUM PROPERTIES * 1: Basics of statistical mechanics of short-range interacting systems * 2: Equilibriumstatistical mechanics of long-range interactions * 3: The large deviations method and its applications * 4: Solutions of mean field models * 5: Beyond mean-field models * 6: Quantum long-range systems * PART II: DYNAMICAL PROPERTIES * 7: BBGKY hierarchy, kinetic theories and the Boltzmann equation * 8: Kinetic theory of long-range systems: Klimontovich, Vlasov and Lenard-Balescu equations * 9: Out-of-equilibrium dynamics and slow relaxation * PART III: APPLICATIONS * 10: Gravitational systems * 11: Two-dimensional and geophysical fluid mechanics * 12: Cold Coulomb systems * 13: Hot plasma * 14: Wave-particles interaction * 15: Dipolar systems * Appendix A: Features of the main models studied throughout the book * Appendix B: Evaluation of the Laplace integral outside the analyticity strip * Appendix C: The equilibrium form of the one-particle distribution function in short-range interacting systems * Appendix D: The differential cross section of a binary collision * Appendix E: Autocorrelation of the fluctuations of the one-particle density * Appendix F: Derivation of the Fokker-Planck coefficients
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