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arxiv 2307.10217 v1 pith:NZKJ6W5M submitted 2023-07-14 physics.atom-ph physics.ins-det

A scalable scanning transfer cavity laser stabilization scheme based on the Red Pitaya STEMlab platform

classification physics.atom-ph physics.ins-det
keywords stabilizationlasersschemecavityexperimentslasermanypitaya
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Many experiments in atomic and molecular physics require simultaneous frequency stabilization of multiple lasers. We present a stabilization scheme based on a scanning transfer cavity lock that is simple, stable and easily scalable to many lasers at minimal cost. The scheme is based on the Red Pitaya STEMlab platform, with custom software developed and implemented to achieve up to 100 Hz bandwidth. As an example demonstration, we realize simultaneous stabilization of up to four lasers and a reduction of long-term drifts to well below 1 MHz per hour. This meets typical requirements, e.g. for experiments on laser cooling of molecules.

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