Chaotic quantum ratchets and filters with cold atoms in optical lattices: properties of Floquet states
2004
Online
report
Recently, cesium atoms in optical lattices subjected to cycles of unequally-spaced pulses have been found to show interesting behavior: they represent the first experimental demonstration of a Hamiltonian ratchet mechanism, and they show strong variability of the Dynamical Localization lengths as a function of initial momentum. The behavior differs qualitatively from corresponding atomic systems pulsed with equal periods, which are a textbook implementation of a well-studied quantum chaos paradigm, the quantum delta-kicked particle (delta-QKP). We investigate here the properties of the corresponding eigenstates (Floquet states) in the parameter regime of the new experiments and compare them with those of the eigenstates of the delta-QKP at similar kicking strengths. We show that, with the properties of the Floquet states, we can shed light on the form of the observed ratchet current as well as variations in the Dynamical Localization length.
Comment: 9 pages, 9 figures
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Chaotic quantum ratchets and filters with cold atoms in optical lattices: properties of Floquet states
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Autor/in / Beteiligte Person: | Hur, G. ; Creffield, C. E. ; Jones, P. H. ; Monteiro, T. S. |
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Veröffentlichung: | 2004 |
Medientyp: | report |
DOI: | 10.1103/PhysRevA.72.013403 |
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