Absolute frequency stabilization of a tunable Tm:Ho:YAG laser to the HBr P(12) line at 2097 nm

M. Marano; P. Laporta; A. Sapia; P. De Natale

doi:10.1364/OL.25.001702

Optics Letters
Vol. 25,
Issue 23,
pp. 1702-1704
(2000)
•https://doi.org/10.1364/OL.25.001702

Absolute frequency stabilization of a tunable Tm:Ho:YAG laser to the HBr P(12) line at 2097 nm

M. Marano, P. Laporta, A. Sapia, and P. De Natale

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M. Marano, P. Laporta, A. Sapia, and P. De Natale, "Absolute frequency stabilization of a tunable Tm:Ho:YAG laser to the HBr P(12) line at 2097 nm," Opt. Lett. 25, 1702-1704 (2000)

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Abstract

We demonstrate absolute frequency stabilization of a widely tunable Tm:Ho:YAG laser by locking the oscillator to the $P (12)$ absorption line of the $H^{79} Br$ molecule at 2097.222 nm, using the fringe side-locking technique. We perform time and spectral analysis of open- and closed-loop error signals to evaluate the frequency noise. In closed-loop operation a long-term frequency stability of better than 2 MHz with rms frequency fluctuations of $\sim 112 kHz$ is obtained over an observation time of $10^{3} s$ .

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