Matheus S. Palmero, Gabriel I. Díaz, Peter V. E. McClintock, Edson D. Leonel
Published 2019-07-25Version 1
We show that, in strongly chaotic dynamical systems, the average particle velocity can be calculated analytically by consideration of Brownian dynamics in phase space, the method of images and use of the classical diffusion equation. The method is demonstrated on the simplified Fermi-Ulam accelerator model, which has a mixed phase space with chaotic seas, invariant tori and Kolmogorov-Arnold-Moser (KAM) islands. The calculated average velocities agree well with numerical simulations and with an earlier empirical theory. The procedure can readily be extended to other systems including time-dependent billiards.
Comments: Submitted to Chaos
Related articles:
Permutation entropy of indexed ensembles: Quantifying thermalization dynamics
Brownian motion exhibiting absolute negative mobility
Conditional entropy and weak fluctuation correlation in nonequilibrium complex systems
![QR code for arXiv:1907.11702 [cond-mat.stat-mech]](http://oss.arxitics.com/images/favicon.svg)