Compression of cold atoms to very high densities in a rotating-beam blue-detuned optical trap

N. Friedman; L. Khaykovich; R. Ozeri; N. Davidson

doi:10.1103/physreva.61.031403

Compression of cold atoms to very high densities in a rotating-beam blue-detuned optical trap

N. Friedman, L. Khaykovich, R. Ozeri, N. Davidson

Weizmann Institute of Science

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

Abstract

We propose and demonstrate a scheme for a blue-detuned optical dipole trap for cold atoms which consists of a single, rapidly rotating laser beam. We characterize a parameter range in which the optical potential can be accurately described by a quasistatic time-averaged potential. The trap is loaded with [Formula Presented] Rb atoms, and is then compressed adiabatically by a factor of 350 to a final density of [Formula Presented] [Formula Presented] [Formula Presented] times adiabatic increase in the peak phase-space density of the trapped atoms is obtained due to the change in the shape of the trap potential. The two-body elastic and inelastic collision rates of atoms in the compressed trap are determined.

Original language	English
Pages (from-to)	4
Number of pages	1
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	61
Issue number	3
DOIs	https://doi.org/10.1103/physreva.61.031403
State	Published - 2000
Externally published	Yes

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10.1103/physreva.61.031403

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abstract = "We propose and demonstrate a scheme for a blue-detuned optical dipole trap for cold atoms which consists of a single, rapidly rotating laser beam. We characterize a parameter range in which the optical potential can be accurately described by a quasistatic time-averaged potential. The trap is loaded with [Formula Presented] Rb atoms, and is then compressed adiabatically by a factor of 350 to a final density of [Formula Presented] [Formula Presented] [Formula Presented] times adiabatic increase in the peak phase-space density of the trapped atoms is obtained due to the change in the shape of the trap potential. The two-body elastic and inelastic collision rates of atoms in the compressed trap are determined.",

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AB - We propose and demonstrate a scheme for a blue-detuned optical dipole trap for cold atoms which consists of a single, rapidly rotating laser beam. We characterize a parameter range in which the optical potential can be accurately described by a quasistatic time-averaged potential. The trap is loaded with [Formula Presented] Rb atoms, and is then compressed adiabatically by a factor of 350 to a final density of [Formula Presented] [Formula Presented] [Formula Presented] times adiabatic increase in the peak phase-space density of the trapped atoms is obtained due to the change in the shape of the trap potential. The two-body elastic and inelastic collision rates of atoms in the compressed trap are determined.

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Compression of cold atoms to very high densities in a rotating-beam blue-detuned optical trap

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