Directional Bistability and Nonreciprocal Lasing with Cold Atoms in a Ring Cavity

B. Megyeri; G. Harvie; A. Lampis; J. Goldwin

doi:10.1103/PhysRevLett.121.163603

Directional Bistability and Nonreciprocal Lasing with Cold Atoms in a Ring Cavity

B. Megyeri, G. Harvie, A. Lampis, J. Goldwin^*

^*Corresponding author for this work

School of Physics

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

21 Citations (Scopus)

Abstract

We demonstrate lasing into counterpropagating modes of a ring cavity using a gas of cold atoms as a gain medium. The laser operates under the usual conditions of magneto-optical trapping with no additional fields. We characterize the threshold behavior of the laser and measure the second-order optical coherence. The laser emission exhibits directional bistability, switching randomly between clockwise and counterclockwise modes, and a tunable nonreciprocity is observed as the atoms are displaced along the cavity axis.

Original language	English
Article number	163603
Journal	physical review letters
Volume	121
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.121.163603
Publication status	Published - 19 Oct 2018

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© 2018 American Physical Society.

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abstract = "We demonstrate lasing into counterpropagating modes of a ring cavity using a gas of cold atoms as a gain medium. The laser operates under the usual conditions of magneto-optical trapping with no additional fields. We characterize the threshold behavior of the laser and measure the second-order optical coherence. The laser emission exhibits directional bistability, switching randomly between clockwise and counterclockwise modes, and a tunable nonreciprocity is observed as the atoms are displaced along the cavity axis.",

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AB - We demonstrate lasing into counterpropagating modes of a ring cavity using a gas of cold atoms as a gain medium. The laser operates under the usual conditions of magneto-optical trapping with no additional fields. We characterize the threshold behavior of the laser and measure the second-order optical coherence. The laser emission exhibits directional bistability, switching randomly between clockwise and counterclockwise modes, and a tunable nonreciprocity is observed as the atoms are displaced along the cavity axis.

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Directional Bistability and Nonreciprocal Lasing with Cold Atoms in a Ring Cavity

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