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Paper detail

Compact Plug and Play Optical Frequency Reference Device Based on Doppler-Free Spectroscopy of Rubidium Vapor

Compactness, robustness and autonomy of optical frequency references are prerequisites for reliable operation in mobile systems, on ground as well as in space. We present a standalone plug and play optical frequency reference device based on frequency modulation spectroscopy of the D2-transition in rubidium at 780 nm. After a single button press the hand-sized laser module, based on the micro-integrated laser-optical bench described in [J. Opt. Soc. Am. B 38, 1885-1891 (2021)], works fully autonomous and generates 6 mW of frequency stabilized light with a relative frequency instability of 1.4e-12 at 1 s and below 1e-11 at 1e5 s averaging time. We describe the design of the device, investigate the thermal characteristics affecting the output frequency and demonstrate short-term frequency stability improvement by a Bayesian optimizer varying the modulation parameters.

preprint2022arXivOpen access
Aaron StrangfeldBenjamin WiegandJulien KlugeMatthias SchochMarkus Krutzik
physics.atom-phphysics.optics
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Aaron StrangfeldBenjamin WiegandJulien KlugeMatthias SchochMarkus Krutzik

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