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Paper detail

Phase Space Interpretation of Exponential Fermi Acceleration

Recently, the occurrence of exponential Fermi acceleration has been reported in a rectangular billiard with an oscillating bar inside [K. Shah, D. Turaev, and V. Rom-Kedar, Phys. Rev. E {\bf 81}, 056205 (2010)]. In the present work, we analyze the underlying physical mechanism and show that the phenomenon can be understood as a sequence of highly correlated motions, consisting of alternating phases of free propagation and motion along the invariant spanning curves of the well-known one-dimensional Fermi-Ulam model. The key mechanism for the occurrence of exponential Fermi acceleration can be captured in a random walk model in velocity space with step width proportional to the velocity itself. The model reproduces the occurrence of exponential Fermi acceleration and provides a good ab initio prediction of the value of the growth rate including its full parameter-dependency. Our analysis clearly points out the requirements for exponential Fermi acceleration, thereby opening the perspective of finding other systems exhibiting this unusual behaviour.

preprint2011arXivOpen access
Benno LiebchenRobert BüchnerChristoph PetriFotis K. DiakonosFlorian LenzPeter Schmelcher
nlin.CD
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Benno LiebchenRobert BüchnerChristoph PetriFotis K. DiakonosFlorian LenzPeter Schmelcher

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