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Auteurs principaux: Lu, Xu, Chen, Yewei, Mazza, Francesco, He, Siyi, Li, Zihan, Huang, Shunlin, Wang, Quanjun, Zhang, Ning, Shen, Bo, Wu, Yuzhu, Yao, Jinping, Cheng, Ya
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2403.11098
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author Lu, Xu
Chen, Yewei
Mazza, Francesco
He, Siyi
Li, Zihan
Huang, Shunlin
Wang, Quanjun
Zhang, Ning
Shen, Bo
Wu, Yuzhu
Yao, Jinping
Cheng, Ya
author_facet Lu, Xu
Chen, Yewei
Mazza, Francesco
He, Siyi
Li, Zihan
Huang, Shunlin
Wang, Quanjun
Zhang, Ning
Shen, Bo
Wu, Yuzhu
Yao, Jinping
Cheng, Ya
contents Thermometric techniques with high accuracy, fast response speed and ease of implementation are desirable for the study of dynamic combustion environments, transient reacting flows, and non-equilibrium plasmas. Herein, single-shot single-beam coherent Raman scattering (SS-CRS) thermometry is developed, for the first time to our knowledge, by using air lasing as a probe. It's proved that the air-lasing-assisted CRS signal has a high signal-to-noise ratio enabling single-shot measurements at a 1 kHz repetition rate. The SS-CRS thermometry consistently exhibits precision better than 2% at different temperatures, but the inaccuracy grows with the increase in temperature. The high detection precision, 1 kHz acquisition rate and easy-to-implement single-beam scheme are achieved thanks to the unique temporal, spectral and spatial characteristics of air lasing. This work opens a novel avenue for high-speed CRS thermometry, holding tremendous potential for fast diagnostics of transient reacting flows and plasmas.
format Preprint
id arxiv_https___arxiv_org_abs_2403_11098
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Single-Shot Single-Beam Coherent Raman Scattering Thermometry Based on Air Lasing
Lu, Xu
Chen, Yewei
Mazza, Francesco
He, Siyi
Li, Zihan
Huang, Shunlin
Wang, Quanjun
Zhang, Ning
Shen, Bo
Wu, Yuzhu
Yao, Jinping
Cheng, Ya
Optics
Plasma Physics
Thermometric techniques with high accuracy, fast response speed and ease of implementation are desirable for the study of dynamic combustion environments, transient reacting flows, and non-equilibrium plasmas. Herein, single-shot single-beam coherent Raman scattering (SS-CRS) thermometry is developed, for the first time to our knowledge, by using air lasing as a probe. It's proved that the air-lasing-assisted CRS signal has a high signal-to-noise ratio enabling single-shot measurements at a 1 kHz repetition rate. The SS-CRS thermometry consistently exhibits precision better than 2% at different temperatures, but the inaccuracy grows with the increase in temperature. The high detection precision, 1 kHz acquisition rate and easy-to-implement single-beam scheme are achieved thanks to the unique temporal, spectral and spatial characteristics of air lasing. This work opens a novel avenue for high-speed CRS thermometry, holding tremendous potential for fast diagnostics of transient reacting flows and plasmas.
title Single-Shot Single-Beam Coherent Raman Scattering Thermometry Based on Air Lasing
topic Optics
Plasma Physics
url https://arxiv.org/abs/2403.11098