Laser-cavity locking utilizing beam ellipticity: accessing the 10−7 instability scale relative to cavity linewidth

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Journal Article | Published | English
Department
Abstract
Frequency-stable lasers form the back bone of precision measurements in science and technology. Such lasers typically attain their stability through frequency locking to reference cavities. State-of-the-art locking performances to date had been achieved using frequency modulation based methods, complemented with active drift cancellation systems. We demonstrate an all passive, modulation-free laser-cavity locking technique (squash locking) that utilizes changes in spatial beam ellipticity for error signal generation, and a coherent polarization post-selection for noise resilience. By comparing two identically built proof-of-principle systems, we show a frequency locking instability of 5×10<jats:sup>−7</jats:sup> relative to the cavity linewidth at 10 s averaging. The results surpass the demonstrated performances of methods engineered over the last five decades, potentially enabling an advancement in the precision control of lasers, while creating avenues for bridging the performance gaps between industrial grade lasers with scientific ones due to the afforded simplicity and scalability.
Publishing Year
Date Published
2024-01-20
Journal Title
Optica
Publisher
Optica Publishing Group
Acknowledgement
We thank Rishabh Sahu and Sebastian Wald for technical contributions to the experiment. Funding by Institute of Science and Technology Austria.
Volume
11
Issue
1
Page
26-31
ISSN
IST-REx-ID
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Creative Commons Attribution 4.0 International Public License (CC-BY 4.0):
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OA Open Access
Date Uploaded
2024-01-17
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arXiv 2202.13212

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