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arxiv: 2502.17256 · v2 · pith:Q5RRP3MP · submitted 2025-02-24 · physics.optics · physics.atom-ph

Low-dispersive phase-modulated rapid scanning interferometry

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classification physics.optics physics.atom-ph
keywords schemeacousto-opticalaomsaopmhereinterferometerinterferometrymodulation
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Time-domain interferometry is an important principle in Fourier transform (FT) and nonlinear femto- to attosecond spectroscopy. To optimize the resolution and sensitivity of this approach, various interferometer stabilization schemes have been developed. Among them, acousto-optical phase modulation (AOPM) of the interferometer arms combined with phase-synchronous lock-in detection has proven as a particular sensitive technique. However, the acousto-optical modulators (AOMs), required for this technique, introduce several disadvantages. Here, we demonstrate an alternative phase modulation scheme which omits AOMs, termed PM scheme here. As a benchmark, we directly compare the performance between the PM and the AOPM scheme in a linear FT spectroscopy experiment and find comparable sensitivity in both approaches.

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