Synchronization in non dissipative optical lattices
TLDR
In this article, the authors studied the dynamics of cold atoms inside a well of a red detuned lattice, with the aim to understand the dynamical mechanisms leading to the disappearance of chaos.Abstract:
The dynamics of cold atoms in conservative optical lattices obviously depends on the geometry of the lattice. But very similar lattices may lead to deeply different dynamics. For example, in a 2D optical lattice with a square mesh, the sign of the detuning plays a crucial role: in the blue detuned case, trajectories of an atom inside a well are chaotic for high enough energies. On the contrary, in the red detuned case, chaos is completely inhibited inside the wells. Here, we study in details the dynamical regimes of atoms inside a well of a red detuned lattice, with the aim to understand the dynamical mechanisms leading to the disappearance of chaos. We show that the motions in the two directions of space are frequency locked in most of the phase space, for most of the parameters of the lattice and atoms. This synchronization, not as strict as that of a dissipative system, is nevertheless a mechanism powerful enough to explain that chaos cannot appear in red detuned lattices.read more
Citations
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Regular and Chaotic Dynamics
TL;DR: In this article, a self consistent treatment of the subject at the graduate level and as a reference for scientists already working in the field is presented. But the focus is on the mechanics for generating chaotic motion, methods of calculating the transitions from regular to chaotic motion and the dynamical and statistical properties of the dynamics when it is chaotic.
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Quantum–classical correspondence in chaotic dynamics of laser-driven atoms
TL;DR: In this paper, a review article on some aspects of quantum-classical correspondence in chaotic dynamics of cold atoms interacting with a standing-wave laser field forming an optical lattice is presented.
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Weak Chaos with Cold Atoms in a 2D Optical Lattice with Orthogonal Polarizations of Laser Beams
TL;DR: Theoretically coherent dynamics of cold atoms in the near-resonant 2D optical lattice with orthogonal polarizations were studied in this paper. But the authors only considered the case of 1D lattice.
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Chaotic Walking of Cold Atoms in a 2D Optical Lattice
TL;DR: In this paper, a system of differential equations for coupled degrees of freedom obtained in the semiclassical approximation has regular and chaotic solutions depending on the atomic-field detuning from resonance.
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How to characterize the dynamics of cold atoms in non dissipative optical lattices
TL;DR: The dynamics of classical cold atoms have been investigated, mainly through instabilities of the disordered cloud produced by a magneto-optical trap, but the richer dynamics is expected in ordered potential, as those obtained with optical lattices.
References
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Journal ArticleDOI
Anomalous diffusion in two-dimensional potentials with hexagonal symmetry
TL;DR: In this article, the diffusion process in a Hamiltonian dynamical system describing the motion of a particle in a two-dimensional (2D) potential with hexagonal symmetry is studied, and various transport processes can exist: normal (Brownian) diffusion, anomalous diffusion, and ballistic transport.
Journal ArticleDOI
How to characterize the dynamics of cold atoms in non dissipative optical lattices
TL;DR: The dynamics of classical cold atoms have been investigated, mainly through instabilities of the disordered cloud produced by a magneto-optical trap, but the richer dynamics is expected in ordered potential, as those obtained with optical lattices.