Statistical Physics of Synchronization
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portes grátis
Statistical Physics of Synchronization
Gupta, Shamik; Campa, Alessandro; Ruffo, Stefano
Springer International Publishing AG
09/2018
121
Mole
Inglês
9783319966632
15 a 20 dias
454
Descrição não disponível.
Synchronizing systems.- Introduction.- The oscillators and their interaction: A qualitative discussion.- Oscillators as limit cycles.- Interacting limit-cycle oscillators.- Synchronizing systems as statistical mechanical systems.- The features of a statistical physical description.- Some results for noiseless interacting oscillators.- The oscillators with inertia.- Appendix 1: A two-dimensional dynamics with a limit-cycle attractor.- Appendix 2: The Lyapunov exponents.- Appendix 3: The one-body distribution function in an N-body system.- Oscillators with first-order dynamics.- The oscillators with distributed natural frequencies.- The Kuramoto model.- Unimodal symmetric g(w).- Nonunimodal g(w).- Appendix 1: An H-theorem for a particular simple case.- Appendix 2: Form of the function r(K) for symmetric and unimodal frequency distributions in the Kuramoto model.- Appendix 3: The numerical solution of Eq. (2.34).- Oscillators with second-order dynamics.- Generalized Kuramoto model with inertia and noise.- Nonequilibrium first-order synchronization phase transition: Simulation results.- Analysis in the continuum limit: The Kramers equation.- Phase diagram: Comparison with numeric.- Appendix 1: The noiseless Kuramoto model with inertia: Connection with electrical power distribution models.- Appendix 2: Proof that the dynamics (3.9) does not satisfy detailed balance.- Appendix 3: Simulation details for the dynamics (3.9).- Appendix 4: Derivation of the Kramers equation.- Appendix 5: Nature of solutions of Eq. (3.32).- Appendix 6: Solution of the system of equations (3.39).- Appendix 7: Convergence properties of the expansion (3.38).
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spontaneous synchronization;synchronizing systems;Kuramoto model;long-range interactions;non-additive systems;Fokker-Planck equation;inequivalence of statistical ensembles;breaking of ergodicity;noisy synchronizing systems;quenched random variables;nonequilibrium steady states;Mean-field analysis;Limit-cycle oscillators;Ott-Antonson solution;Kramers equation;complexity
Synchronizing systems.- Introduction.- The oscillators and their interaction: A qualitative discussion.- Oscillators as limit cycles.- Interacting limit-cycle oscillators.- Synchronizing systems as statistical mechanical systems.- The features of a statistical physical description.- Some results for noiseless interacting oscillators.- The oscillators with inertia.- Appendix 1: A two-dimensional dynamics with a limit-cycle attractor.- Appendix 2: The Lyapunov exponents.- Appendix 3: The one-body distribution function in an N-body system.- Oscillators with first-order dynamics.- The oscillators with distributed natural frequencies.- The Kuramoto model.- Unimodal symmetric g(w).- Nonunimodal g(w).- Appendix 1: An H-theorem for a particular simple case.- Appendix 2: Form of the function r(K) for symmetric and unimodal frequency distributions in the Kuramoto model.- Appendix 3: The numerical solution of Eq. (2.34).- Oscillators with second-order dynamics.- Generalized Kuramoto model with inertia and noise.- Nonequilibrium first-order synchronization phase transition: Simulation results.- Analysis in the continuum limit: The Kramers equation.- Phase diagram: Comparison with numeric.- Appendix 1: The noiseless Kuramoto model with inertia: Connection with electrical power distribution models.- Appendix 2: Proof that the dynamics (3.9) does not satisfy detailed balance.- Appendix 3: Simulation details for the dynamics (3.9).- Appendix 4: Derivation of the Kramers equation.- Appendix 5: Nature of solutions of Eq. (3.32).- Appendix 6: Solution of the system of equations (3.39).- Appendix 7: Convergence properties of the expansion (3.38).
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
spontaneous synchronization;synchronizing systems;Kuramoto model;long-range interactions;non-additive systems;Fokker-Planck equation;inequivalence of statistical ensembles;breaking of ergodicity;noisy synchronizing systems;quenched random variables;nonequilibrium steady states;Mean-field analysis;Limit-cycle oscillators;Ott-Antonson solution;Kramers equation;complexity
