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arxiv: 2407.16140 · v1 · pith:NN3DB2QE · submitted 2024-07-23 · physics.optics

Frequency stabilization based on H13C14N absorption in lithium niobate micro-disk laser

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classification physics.optics
keywords laserabsorptionfrequencyh13c14nmicro-diskstabilitylithiumniobate
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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.

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