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Main Authors: Yi, Zhen, Zhang, Zhihao, Guan, Jianglin, Zhao, Guanghui, Gao, Renhong, Fu, Botao, Lin, Jintian, Chen, Jinming, Liu, Jian, Pan, Yijie, Cheng, Ya
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.16140
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author Yi, Zhen
Zhang, Zhihao
Guan, Jianglin
Zhao, Guanghui
Gao, Renhong
Fu, Botao
Lin, Jintian
Chen, Jinming
Liu, Jian
Pan, Yijie
Cheng, Ya
author_facet Yi, Zhen
Zhang, Zhihao
Guan, Jianglin
Zhao, Guanghui
Gao, Renhong
Fu, Botao
Lin, Jintian
Chen, Jinming
Liu, Jian
Pan, Yijie
Cheng, Ya
contents We demonstrate an on-chip lithium niobate micro-disk laser based on hydrogen cyanide (H13C14N) gas saturation absorption method for frequency stabilization. The laser chip consists of two main components: a micro-disk laser and a combined racetrack ring cavity. By operating on the H13C14N P12 absorption line at 1551.3 nm, the laser frequency can be precisely stabilized. The laser demonstrates remarkable stability, achieving a best stability value of 9*10^-9. Furthermore, the short-term stability, evaluated over continuous time intervals of 35 seconds, showcases exceptional performance. Additionally, the residual drift remains well below 30 MHz.
format Preprint
id arxiv_https___arxiv_org_abs_2407_16140
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Frequency stabilization based on H13C14N absorption in lithium niobate micro-disk laser
Yi, Zhen
Zhang, Zhihao
Guan, Jianglin
Zhao, Guanghui
Gao, Renhong
Fu, Botao
Lin, Jintian
Chen, Jinming
Liu, Jian
Pan, Yijie
Cheng, Ya
Optics
We demonstrate an on-chip lithium niobate micro-disk laser based on hydrogen cyanide (H13C14N) gas saturation absorption method for frequency stabilization. The laser chip consists of two main components: a micro-disk laser and a combined racetrack ring cavity. By operating on the H13C14N P12 absorption line at 1551.3 nm, the laser frequency can be precisely stabilized. The laser demonstrates remarkable stability, achieving a best stability value of 9*10^-9. Furthermore, the short-term stability, evaluated over continuous time intervals of 35 seconds, showcases exceptional performance. Additionally, the residual drift remains well below 30 MHz.
title Frequency stabilization based on H13C14N absorption in lithium niobate micro-disk laser
topic Optics
url https://arxiv.org/abs/2407.16140