Coherence time of a cold-atom laser below threshold

Graeme Harvie; Adam Butcher; Jon Goldwin

doi:10.1364/OL.402975

Coherence time of a cold-atom laser below threshold

Graeme Harvie, Adam Butcher, Jon Goldwin^*

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article (Academic Journal) › peer-review

2 Citations (Scopus)

Abstract

We experimentally study the coherence time of a below-threshold Raman laser in which the gain medium is a gas of magneto-optically trapped atoms. The second-order optical coherence exhibits photon bunching with a correlation time that is varied by two orders of magnitude by controlling the gain. Results are in good agreement with a simple analytic model that suggests the effect is dominated by gain, rather than dispersion, in this system. Cavity ring-down measurements show the photon lifetime, related to the first-order coherence time, is also increased.

Original language	English
Pages (from-to)	5448-5451
Number of pages	4
Journal	Optics Letters
Volume	45
Issue number	19
DOIs	https://doi.org/10.1364/OL.402975
Publication status	Published - 25 Sept 2020

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© 2020 Optical Society of America

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title = "Coherence time of a cold-atom laser below threshold",

abstract = "We experimentally study the coherence time of a below-threshold Raman laser in which the gain medium is a gas of magneto-optically trapped atoms. The second-order optical coherence exhibits photon bunching with a correlation time that is varied by two orders of magnitude by controlling the gain. Results are in good agreement with a simple analytic model that suggests the effect is dominated by gain, rather than dispersion, in this system. Cavity ring-down measurements show the photon lifetime, related to the first-order coherence time, is also increased.",

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AU - Goldwin, Jon

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N2 - We experimentally study the coherence time of a below-threshold Raman laser in which the gain medium is a gas of magneto-optically trapped atoms. The second-order optical coherence exhibits photon bunching with a correlation time that is varied by two orders of magnitude by controlling the gain. Results are in good agreement with a simple analytic model that suggests the effect is dominated by gain, rather than dispersion, in this system. Cavity ring-down measurements show the photon lifetime, related to the first-order coherence time, is also increased.

AB - We experimentally study the coherence time of a below-threshold Raman laser in which the gain medium is a gas of magneto-optically trapped atoms. The second-order optical coherence exhibits photon bunching with a correlation time that is varied by two orders of magnitude by controlling the gain. Results are in good agreement with a simple analytic model that suggests the effect is dominated by gain, rather than dispersion, in this system. Cavity ring-down measurements show the photon lifetime, related to the first-order coherence time, is also increased.

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DO - 10.1364/OL.402975

M3 - Article (Academic Journal)

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JO - Optics Letters

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Coherence time of a cold-atom laser below threshold

Abstract

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