Laser-cavity locking at the $10^{-7}$ instability scale utilizing beam elipticity

Diorico, Fritz; Zhutov, Artem; Hosten, Onur

doi:10.48550/arxiv.2203.04550

2022

DOI: 10.48550/arxiv.2203.04550

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Laser-cavity locking at the $10^{-7}$ instability scale utilizing beam elipticity

Fritz Diorico¹,

Artem Zhutov²,

Onur Hosten³

Abstract: Ultrastable lasers form the back bone of precision measurements in science and technology. Such lasers 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 beam ellipticity for error signal generation, and a coherent … Show more

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Cited by 2 publications

References 37 publications

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Monitoring and active stabilization of laser injection locking using beam ellipticity

et al. 2023

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We unveil a powerful method for the stabilization of laser injection locking based on sensing variations in the output beam ellipticity of an optically seeded laser. The effect arises due to an interference between the seeding beam and the injected laser output. We demonstrate the method for a commercial semiconductor laser without the need for any internal changes to the readily operational injection locked laser system that was used. The method can also be used to increase the mode-hop free tuning range of lasers, and has the potential to fill a void in the low-noise laser industry.

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Monitoring and active stabilization of laser injection locking using beam ellipticity

et al. 2023

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Synthetic FM triplet for AM-free precision laser stabilization and spectroscopy

Kedar,

Yao,

Ryger

et al. 2024

Optica

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The Pound–Drever–Hall (PDH) cavity-locking scheme has found prevalent uses in precision optical interferometry and laser frequency stabilization. A form of frequency modulation spectroscopy, PDH enjoys superior signal-to-noise recovery, large acquisition dynamic range, wide servo bandwidth, and robust rejection of spurious effects. However, residual amplitude modulation at the signal frequency, while significantly suppressed, still presents an important concern for further advancing the state-of-the-art performances. Here we present a simplified and improved scheme for PDH using an acousto-optic modulator to generate digital phase reference sidebands instead of the traditionally used electro-optic modulator approach. We demonstrate four key advantages: (1) the carrier and two modulation tones are individually synthesized and easily reconfigured, (2) robust and orthogonal control of the modulated optical field is applied directly to the amplitude and phase quadratures, (3) modulation synthesis, demodulation, and feedback are implemented in a self-contained and easily reproducible electronic unit, and (4) superior active and passive control of residual amplitude modulation is achieved, especially when the carrier power is vanishingly low. These distinct merits stimulate new ideas on how we optimally enact PDH for a wide range of applications.

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Laser-cavity locking at the $10^{-7}$ instability scale utilizing beam elipticity

Cited by 2 publications

References 37 publications

Monitoring and active stabilization of laser injection locking using beam ellipticity

Monitoring and active stabilization of laser injection locking using beam ellipticity

Synthetic FM triplet for AM-free precision laser stabilization and spectroscopy

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