Saturation Spectroscopy of H13C14N Absorption Lines

conference paper

en

We present a saturated spectroscopy measurement of H 13 C 14 N hydrogen cyanide 2ν 3 band absorption lines. The system employed a continuously-tunable laser referenced to stabilised optical frequency comb, which allowed us to scan the H 13 C 14 N spectrum with sub-kHz precision. The sub-Doppler spectroscopy scheme and the third-harmonics synchronous detection allowed us to determine the position of absorption lines with a fortyfold improvement in precision against the most up-to-date published results [1] and expanded the list of lines measured by this technique published in [2].

We present a saturated spectroscopy measurement of H 13 C 14 N hydrogen cyanide 2ν 3 band absorption lines. The system employed a continuously-tunable laser referenced to stabilised optical frequency comb, which allowed us to scan the H 13 C 14 N spectrum with sub-kHz precision. The sub-Doppler spectroscopy scheme and the third-harmonics synchronous detection allowed us to determine the position of absorption lines with a fortyfold improvement in precision against the most up-to-date published results [1] and expanded the list of lines measured by this technique published in [2].

saturated absorption spectroscopy; hydrogen cyanide, laser spectroscopy; third-harmonic detection

09.10.2023

IEEE

NEW YORK

979-8-3503-1142-6

2023 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum

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