Kerr-Enhanced Optical Spring

Creators: Otabe, Sotatsu; Usukura, Wataru; Suzuki, Kaido; Komori, Kentaro; Michimura, Yuta; Harada, Ken-ichi; Somiya, Kentaro

Abstract

We propose and experimentally demonstrate the generation of enhanced optical springs using the optical Kerr effect. A nonlinear optical crystal is inserted into a Fabry-Perot cavity with a movable mirror, and a chain of second-order nonlinear optical effects in the phase-mismatched condition induces the Kerr effect. The optical spring constant is enhanced by a factor of $1.6 \pm 0.1$ over linear theory. To our knowledge, this is the first realization of optomechanical coupling enhancement using a nonlinear optical effect, which has been theoretically investigated to overcome the performance limitations of linear optomechanical systems. The tunable nonlinearity of demonstrated system has a wide range of potential applications, from observing gravitational waves emitted by binary neutron star postmerger remnants to cooling macroscopic oscillators to their quantum ground state.

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Acknowledgement

This work was supported by JST CREST (JPMJCR1873), Grant-in-Aid for JSPS Fellows (20J22778), and the Precise Measurement Technology Promotion Foundation. We would like to thank Jerome Degallaix and colleagues at LMA for providing us with a specially coated mirror and John Winterflood at UWA for designing the double spiral spring.

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PhysRevLett.132.143602.pdf

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