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Trapped Ion Quantum Computing
Optical layout for a 10m Fabry-Pérot Michelson interferometer with tunable stability
arXiv
Authors: Christian Gräf, Stefan Hild, Harald Lück, Benno Willke, Kenneth A. Strain, Stefan Goßler, Karsten Danzmann
Year
2011
Paper ID
29320
Status
Preprint
Abstract Read
~2 min
Abstract Words
185
Citations
N/A
Abstract
The sensitivity of high-precision interferometric measurements can be limited by Brownian noise within dielectric mirror coatings. This occurs, for instance, in the optical resonators of gravitational wave detectors where the noise can be reduced by increasing the laser beam size. However, the stability of the resonator and its optical performance often impose a limit on the maximally feasible beam size. In this article we describe the optical design of a 10\,m Fabry-Pérot Michelson interferometer with tunable stability. Our design will allow us to carry out initial commissioning with arm cavities of high stability, while afterwards the arm cavity length can be increased stepwise towards the final, marginally stable configuration. Requiring only minimal hardware changes, with respect to a comparable "static" layout, the proposed technique will not only enable us to explore the stability limits of an optical resonator with realistic mirrors exhibiting inevitable surface imperfections, but also the opportunity to measure coating Brownian noise at frequencies as low as a few hundred Hertz. A detailed optical design of the tunable interferometer is presented and requirements for the optical elements are derived from robustness evaluations.
Why This Paper Matters
- This paper contributes to the Trapped-Ion Quantum Computing research area in the Quantum Articles archive.
- It adds a 2011 reference point for readers tracking recent quantum research.
- The sensitivity of high-precision interferometric measurements can be limited by Brownian noise within dielectric mirror coatings.
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