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Optomechanics in superfluid helium coupled to a fiber-based cavity

Presented in this paper are measurements of an optomechanical device in which various acoustic modes of a sample of superfluid helium couple to a fiber-based optical cavity. In contrast with recent work on the paraxial acoustic mode confined by the cavity mirrors (Kashkanova et al Nat. Phys. 2016 (h...

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Published in:Journal of optics (2010) 2017-03, Vol.19 (3), p.34001
Main Authors: Kashkanova, A D, Shkarin, A B, Brown, C D, Flowers-Jacobs, N E, Childress, L, Hoch, S W, Hohmann, L, Ott, K, Reichel, J, Harris, J G E
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cited_by cdi_FETCH-LOGICAL-c322t-7eb61cc7db7195e39db268a7a888f5e23fb8991a2e5c72e2017caabd7a8f914d3
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container_title Journal of optics (2010)
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creator Kashkanova, A D
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Harris, J G E
description Presented in this paper are measurements of an optomechanical device in which various acoustic modes of a sample of superfluid helium couple to a fiber-based optical cavity. In contrast with recent work on the paraxial acoustic mode confined by the cavity mirrors (Kashkanova et al Nat. Phys. 2016 (https://doi.org/10.1038/NPHYS3900)), we focus specifically on the acoustic modes associated with the helium surrounding the cavity. This paper provides a framework for understanding how the acoustic modes depend on device geometry. The acoustic modes are observed using the technique of optomechanically induced transparency/amplification. The optomechanical coupling to these modes is found to be predominantly photothermal.
doi_str_mv 10.1088/2040-8986/aa551e
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subjects fluid mechanics
liquid helium
optical cavities
optomechanics
superfluid
title Optomechanics in superfluid helium coupled to a fiber-based cavity
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