Frequency Stability at the Kilohertz Level of a Rubidium-Locked Diode Laser at 192.114 THz

Frequency Stability at the Kilohertz Level of a Rubidium-Locked Diode Laser at 192.114 THz

The frequency stability of a 1560-nm diode laser, whose second harmonic was locked to (87)Rb sub-Doppler lines, was characterized by measuring the beat frequency relative to a 780-nm reference laser that was locked to sub-Doppler lines of another rubidium cell. The square root of the Allan variance...

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Veröffentlicht in:Applied Optics 1998-09, Vol.37 (27), p.6410-6414
Hauptverfasser: Bruner, A, Mahal, V, Kiryuschev, I, Arie, A, Arbore, M A, Fejer, M M
Format: Artikel
Sprache:eng
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Zusammenfassung:The frequency stability of a 1560-nm diode laser, whose second harmonic was locked to (87)Rb sub-Doppler lines, was characterized by measuring the beat frequency relative to a 780-nm reference laser that was locked to sub-Doppler lines of another rubidium cell. The square root of the Allan variance reached a minimum value of 7.5 x 10(-12) in 1 s, which corresponded to frequency variations of 1.44 kHz for the 1560-nm laser. The frequency reproducibility of the system was approximately 1 x 10(-9). These values are better than those that can be achieved by locking to Doppler-broadened transitions at the 1550-nm wavelength band.
ISSN:1559-128X
0003-6935
1539-4522
DOI:10.1364/ao.37.006410