Retroreflective surface optimization for optical cavities with custom mirror profiles
Retroreflective surface optimization for optical cavities with custom mirror profiles
Coupling an emitter to a Fabry-Pérot optical cavity can provide a coherent and strong light-matter interface whose performance in a variety of applications depends critically on the emitter-photon coupling strength. Altering the typically spherical profiles of the cavity mirrors can improve this coupling strength, but directly optimising the mirror shape is numerically challenging as the multidimensional parameter space features many local optima. Here, we develop a two-step method to optimise mirror surface profiles while avoiding these issues. First, we optimise the target cavity eigenmode for the chosen application directly, and second, we construct the mirror surfaces to retroreflect this optimised target mode at both ends of the cavity. We apply our procedure to different emitter-cavity coupling scenarios. We show that mirror shaping can increase the cooperativity of coupling to a central emitter by a factor of approximately 3 across a wide range of geometries, and that, for coupling two or more emitters to a single cavity mode, the improvement factors can far exceed an order of magnitude.
optical resonator, microcavity
033305
Hughes, William J.
79b1b23d-0485-439e-a173-27d42c7f9910
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
2 March 2026
Hughes, William J.
79b1b23d-0485-439e-a173-27d42c7f9910
Horak, Peter
520489b5-ccc7-4d29-bb30-c1e36436ea03
Hughes, William J. and Horak, Peter
(2026)
Retroreflective surface optimization for optical cavities with custom mirror profiles.
Physical Review A, 113 (3), .
(doi:10.1103/mzj8-r92j).
Abstract
Coupling an emitter to a Fabry-Pérot optical cavity can provide a coherent and strong light-matter interface whose performance in a variety of applications depends critically on the emitter-photon coupling strength. Altering the typically spherical profiles of the cavity mirrors can improve this coupling strength, but directly optimising the mirror shape is numerically challenging as the multidimensional parameter space features many local optima. Here, we develop a two-step method to optimise mirror surface profiles while avoiding these issues. First, we optimise the target cavity eigenmode for the chosen application directly, and second, we construct the mirror surfaces to retroreflect this optimised target mode at both ends of the cavity. We apply our procedure to different emitter-cavity coupling scenarios. We show that mirror shaping can increase the cooperativity of coupling to a central emitter by a factor of approximately 3 across a wide range of geometries, and that, for coupling two or more emitters to a single cavity mode, the improvement factors can far exceed an order of magnitude.
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mzj8-r92j
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Accepted/In Press date: 14 January 2026
Published date: 2 March 2026
Keywords:
optical resonator, microcavity
Identifiers
Local EPrints ID: 509716
URI: http://eprints.soton.ac.uk/id/eprint/509716
ISSN: 2469-9926
PURE UUID: b05b8a61-1a70-49b5-a0a7-18b08a597aba
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Date deposited: 03 Mar 2026 17:49
Last modified: 07 Mar 2026 04:18
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Author:
William J. Hughes
Author:
Peter Horak
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