Fast transitionless expansion of cold atoms in optical Gaussian-beam traps

E. Torrontegui; Xi Chen; M. Modugno; A. Ruschhaupt; D. Guéry-Odelin; J. G. Muga

doi:10.1103/PhysRevA.85.033605

Fast transitionless expansion of cold atoms in optical Gaussian-beam traps

E. Torrontegui
, Xi Chen
, M. Modugno
, A. Ruschhaupt
, D. Guéry-Odelin
, J. G. Muga

University of the Basque Country
Shanghai University
Ikerbasque Basque Foundation for Science
Leibniz University Hannover
Universit́e Paul Sabatier/CNRS
Max-Planck-Institute for the Physics of Complex Systems

Research output: Contribution to journal › Article › peer-review

Abstract

We study fast expansions of cold atoms in a three-dimensional Gaussian-beam optical trap. Three different methods to avoid final motional excitation are compared: inverse engineering using Lewis-Riesenfeld invariants, which provides the best overall performance, a bang-bang approach, and a fast adiabatic approach. We analyze the excitation effect of anharmonic terms, radial-longitudinal coupling, and radial-frequency mismatch. In the inverse-engineering approach these perturbations can be suppressed or mitigated by increasing the laser beam waist.

Original language	English
Article number	033605
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	85
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevA.85.033605
Publication status	Published - 5 Mar 2012
Externally published	Yes

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10.1103/PhysRevA.85.033605

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abstract = "We study fast expansions of cold atoms in a three-dimensional Gaussian-beam optical trap. Three different methods to avoid final motional excitation are compared: inverse engineering using Lewis-Riesenfeld invariants, which provides the best overall performance, a bang-bang approach, and a fast adiabatic approach. We analyze the excitation effect of anharmonic terms, radial-longitudinal coupling, and radial-frequency mismatch. In the inverse-engineering approach these perturbations can be suppressed or mitigated by increasing the laser beam waist.",

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AU - Chen, Xi

AU - Modugno, M.

AU - Ruschhaupt, A.

AU - Guéry-Odelin, D.

AU - Muga, J. G.

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N2 - We study fast expansions of cold atoms in a three-dimensional Gaussian-beam optical trap. Three different methods to avoid final motional excitation are compared: inverse engineering using Lewis-Riesenfeld invariants, which provides the best overall performance, a bang-bang approach, and a fast adiabatic approach. We analyze the excitation effect of anharmonic terms, radial-longitudinal coupling, and radial-frequency mismatch. In the inverse-engineering approach these perturbations can be suppressed or mitigated by increasing the laser beam waist.

AB - We study fast expansions of cold atoms in a three-dimensional Gaussian-beam optical trap. Three different methods to avoid final motional excitation are compared: inverse engineering using Lewis-Riesenfeld invariants, which provides the best overall performance, a bang-bang approach, and a fast adiabatic approach. We analyze the excitation effect of anharmonic terms, radial-longitudinal coupling, and radial-frequency mismatch. In the inverse-engineering approach these perturbations can be suppressed or mitigated by increasing the laser beam waist.

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Fast transitionless expansion of cold atoms in optical Gaussian-beam traps

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