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Ultrasensitive Frequency-Modulation Spectroscopy Enhanced by a High-Finesse Optical Cavity: Theory and Application to Overton Transitions of C2H2 and C2HD

Published

Author(s)

L -. Ma, J Ye, John L. Hall

Abstract

The sensitivity of FM spectroscopy can be dramatically enhanced by location of the sample in a high-finesse cavity, for example, -5 orders of magnitude in this study. To avoid conversion of laser frequency noise into amplitude noise by the cavity, we choose the rf modulation frequency to match the cavity's free spectral range. In this way small frequency fluctuations produce no additional noise, and a pure FM dispersion signal is recovered in transmission. We present a systematic study of the detection sensitivity, signal line shape and size, and slope at the central tuning. Experimentally, using a weakly absorbing gas such as C2H2 or C2HD placed inside an external high-finesse resonator, we obtained an integrated absorption sensitivity of 5 x 10-13 (1 x 10 -14/cm) for the gas's weak near-IR molecular overtone transitions. As an interesting application, a Nd:YAG laser was well stabilized on the P(5) line of the C2HD (Ņ2 + 3Ņ3) band by this technique. The high attainable sensitivity permitted selection of slow molecules with low power and gas pressure to give a linewidth 13 times below the room-temperature transit-time limit.
Citation
Journal of the Optical Society of America B-Optical Physics
Volume
16
Issue
No. 12

Keywords

FM spectroscopy, laser stabilization, sensitive laser spectroscopy

Citation

Ma, L. , Ye, J. and Hall, J. (1999), Ultrasensitive Frequency-Modulation Spectroscopy Enhanced by a High-Finesse Optical Cavity: Theory and Application to Overton Transitions of C<sub>2</sub>H<sub>2</sub> and C<sub>2</sub>HD, Journal of the Optical Society of America B-Optical Physics (Accessed June 25, 2024)

Issues

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Created November 30, 1999, Updated October 12, 2021