Autonomous frequency stabilization of two extended cavity diode lasers at the potassium wavelength on a sounding rocket

Achim Peters; Aline N. Dinkelaker; Andreas Wicht; Andr\'e Wenzlawski; Andrew Kenyon; Christian Deutsch; Christian K\"urbis; Ernst M. Rasel; Kai Lampmann; Markus Krutzik

arxiv: 1610.09341 · v1 · pith:FRFXTYLTnew · submitted 2016-10-28 · ⚛️ physics.atom-ph · physics.ins-det

Autonomous frequency stabilization of two extended cavity diode lasers at the potassium wavelength on a sounding rocket

Aline N. Dinkelaker , Max Schiemangk , Vladimir Schkolnik , Andrew Kenyon , Kai Lampmann , Andr\'e Wenzlawski , Patrick Windpassinger , Ortwin Hellmig

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Thijs Wendrich Ernst M. Rasel Michele Giunta Christian Deutsch Christian K\"urbis Robert Smol Andreas Wicht Markus Krutzik Achim Peters

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classification ⚛️ physics.atom-ph physics.ins-det

keywords frequencyautonomouscavitydiodeecdlsextendedflightrocket

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We have developed, assembled, and flight-proven a stable, compact, and autonomous extended cavity diode laser (ECDL) system designed for atomic physics experiments in space. To that end, two micro-integrated ECDLs at 766.7 nm were frequency stabilized during a sounding rocket flight by means of frequency modulation spectroscopy (FMS) of 39^K and offset locking techniques based on the beat note of the two ECDLs. The frequency stabilization as well as additional hard- and software to test hot redundancy mechanisms were implemented as part of a state-machine, which controlled the experiment completely autonomously throughout the entire flight mission.

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Autonomous frequency stabilization of two extended cavity diode lasers at the potassium wavelength on a sounding rocket

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