High-power, micro-integrated diode laser modules at 767 and 780&#x2009;&#x2009;nm for portable quantum gas experiments

Max Schiemangk; Kai Lampmann; Aline Dinkelaker; Anja Kohfeldt; Markus Krutzik; Christian Kürbis; Alexander Sahm; Stefan Spießberger; Andreas Wicht; Götz Erbert; Günther Tränkle; Achim Peters

doi:10.1364/AO.54.005332

Applied Optics
Vol. 54,
Issue 17,
pp. 5332-5338
(2015)
•https://doi.org/10.1364/AO.54.005332

High-power, micro-integrated diode laser modules at 767 and 780 nm for portable quantum gas experiments

Max Schiemangk, Kai Lampmann, Aline Dinkelaker, Anja Kohfeldt, Markus Krutzik, Christian Kürbis, Alexander Sahm, Stefan Spießberger, Andreas Wicht, Götz Erbert, Günther Tränkle, and Achim Peters

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Max Schiemangk, Kai Lampmann, Aline Dinkelaker, Anja Kohfeldt, Markus Krutzik, Christian Kürbis, Alexander Sahm, Stefan Spießberger, Andreas Wicht, Götz Erbert, Günther Tränkle, and Achim Peters, "High-power, micro-integrated diode laser modules at 767 and 780 nm for portable quantum gas experiments," Appl. Opt. 54, 5332-5338 (2015)

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Abstract

We present micro-integrated diode laser modules operating at wavelengths of 767 and 780 nm for cold quantum gas experiments on potassium and rubidium. The master-oscillator-power-amplifier concept provides both narrow linewidth emission and high optical output power. With a linewidth (10 μs) below 1 MHz and an output power of up to 3 W, these modules are specifically suited for quantum optics experiments and feature the robustness required for operation at a drop tower or on-board a sounding rocket. This technology development hence paves the way toward precision quantum optics experiments in space.

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Applied Optics