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Main Authors: Hjältén, Adrian, de Oliveira, Vinicius Silva, Cao, Yuan, Silander, Isak, Lehmann, Kevin K., Foltynowicz, Aleksandra
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.09707
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author Hjältén, Adrian
de Oliveira, Vinicius Silva
Cao, Yuan
Silander, Isak
Lehmann, Kevin K.
Foltynowicz, Aleksandra
author_facet Hjältén, Adrian
de Oliveira, Vinicius Silva
Cao, Yuan
Silander, Isak
Lehmann, Kevin K.
Foltynowicz, Aleksandra
contents We use optical-optical double-resonance (OODR) spectroscopy to measure for the first time hot-band transitions of ethylene (C${_2}$H${_4}$) between states in the 3000 cm$^{-1}$ and 9000 cm$^{-1}$ energy ranges. A 3.2 $μ$m continuous wave (CW) pump is used to populate selected states in the $ν$${_9}$ vibrational mode. The sub-Doppler OODR transitions are then probed with two different cavity-enhanced probes tunable around 1.7 $μ$m: a frequency comb probe that allows for broadband measurements and simultaneous detection of many OODR lines, and a CW probe that measures individual lines with higher signal-to-noise ratio and better frequency accuracy. We report center frequencies and relative intensities of 90 ladder-type hot-band transitions from three different states in the $ν$${_9}$ vibrational mode. We exploit combination differences and measurements of polarization-dependent intensity ratios to determine the final state rotational quantum numbers J. Comparison to theoretical predictions from ExoMol allows tentative assignments for 28 transitions. We report improved center frequencies for the three pump transitions in the $ν$${_9}$ band. Furthermore, we observe 18 sub-Doppler V-type transitions from the depleted ground state to the 6000 cm$^{-1}$ region and assign 14 of them to the variational line list of Mraidi et al. [J Quant Spectros Radiat Transfer. 2023;310:108734 doi:10.1016/j.jqsrt.2023.108734].
format Preprint
id arxiv_https___arxiv_org_abs_2603_09707
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Optical frequency comb double-resonance spectroscopy of the 9030-9175 cm$^{-1}$ states of ethylene
Hjältén, Adrian
de Oliveira, Vinicius Silva
Cao, Yuan
Silander, Isak
Lehmann, Kevin K.
Foltynowicz, Aleksandra
Chemical Physics
We use optical-optical double-resonance (OODR) spectroscopy to measure for the first time hot-band transitions of ethylene (C${_2}$H${_4}$) between states in the 3000 cm$^{-1}$ and 9000 cm$^{-1}$ energy ranges. A 3.2 $μ$m continuous wave (CW) pump is used to populate selected states in the $ν$${_9}$ vibrational mode. The sub-Doppler OODR transitions are then probed with two different cavity-enhanced probes tunable around 1.7 $μ$m: a frequency comb probe that allows for broadband measurements and simultaneous detection of many OODR lines, and a CW probe that measures individual lines with higher signal-to-noise ratio and better frequency accuracy. We report center frequencies and relative intensities of 90 ladder-type hot-band transitions from three different states in the $ν$${_9}$ vibrational mode. We exploit combination differences and measurements of polarization-dependent intensity ratios to determine the final state rotational quantum numbers J. Comparison to theoretical predictions from ExoMol allows tentative assignments for 28 transitions. We report improved center frequencies for the three pump transitions in the $ν$${_9}$ band. Furthermore, we observe 18 sub-Doppler V-type transitions from the depleted ground state to the 6000 cm$^{-1}$ region and assign 14 of them to the variational line list of Mraidi et al. [J Quant Spectros Radiat Transfer. 2023;310:108734 doi:10.1016/j.jqsrt.2023.108734].
title Optical frequency comb double-resonance spectroscopy of the 9030-9175 cm$^{-1}$ states of ethylene
topic Chemical Physics
url https://arxiv.org/abs/2603.09707