: We present a novel, to the best of our knowledge, extended-cavity diode laser based on a modified Littrow configuration. The coarse wavelength adjustment via the rotation of a diffraction grating is decoupled from the fine tuning of the external cavity modes by positioning a piezo transducer behind the diode laser, making the laser robust against misalignment and hysteresis even with long external cavities. Two laser prototypes with external cavities of different lengths were tested with a 780 nm laser diode, and locked to an atomic reference. We observed a mode-hop-free frequency tunability broader than the free spectral range of the external cavity upon changes in its length. The design is well suited to atomic and molecular experiments demanding a high level of stability over time.
Design of a Littrow-type diode laser with independent control of cavity length and grating rotation / Duca, Lucia; Perego, Elia; Berto, Federico; Sias, Carlo. - In: OPTICS LETTERS. - ISSN 0146-9592. - 46:12(2021), pp. 2840-2843. [10.1364/OL.423813]
Design of a Littrow-type diode laser with independent control of cavity length and grating rotation
Duca, Lucia;Perego, Elia;Berto, Federico;Sias, Carlo
2021
Abstract
: We present a novel, to the best of our knowledge, extended-cavity diode laser based on a modified Littrow configuration. The coarse wavelength adjustment via the rotation of a diffraction grating is decoupled from the fine tuning of the external cavity modes by positioning a piezo transducer behind the diode laser, making the laser robust against misalignment and hysteresis even with long external cavities. Two laser prototypes with external cavities of different lengths were tested with a 780 nm laser diode, and locked to an atomic reference. We observed a mode-hop-free frequency tunability broader than the free spectral range of the external cavity upon changes in its length. The design is well suited to atomic and molecular experiments demanding a high level of stability over time.| File | Dimensione | Formato | |
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