Publication detail
Saturation Spectroscopy of H13C14N Absorption Lines
HOŠEK, M. HRABINA, J. ŘEŘUCHA, Š. ČÍŽEK, M. PRAVDOVÁ, L. ČÍP, O.
English title
Saturation Spectroscopy of H13C14N Absorption Lines
Type
conference paper
Language
en
Original abstract
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].
English abstract
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].
Keywords in English
saturated absorption spectroscopy; hydrogen cyanide, laser spectroscopy; third-harmonic detection
Released
09.10.2023
Publisher
IEEE
Location
NEW YORK
ISBN
979-8-3503-1142-6
Book
2023 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum
Pages count
3
BIBTEX
@inproceedings{BUT184885,
author="Martin {Hošek} and Jan {Hrabina} and Šimon {Řeřucha} and Martin {Čížek} and Lenka {Pravdová} and Ondřej {Číp},
title="Saturation Spectroscopy of H13C14N Absorption Lines",
booktitle="2023 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum",
year="2023",
month="October",
publisher="IEEE",
address="NEW YORK",
isbn="979-8-3503-1142-6"
}