March 3, 2026

Low-noise generation of UV dispersive waves at 100 kHz

Key Points

Efficient generation of tunable UV pulses is achieved, with pulse energies measured in the few microjoules range.
Short-term relative intensity noise of the UV source is measured at an impressive 0.58% over a one-second time scale.
Experiment involves resonant dispersive wave emission driven by 28 fs pulses from a ytterbium laser.
Findings imply enhancement in spectroscopy applications, particularly in scenarios requiring high precision and low noise.

Abstract

We experimentally demonstrate efficient generation of tunable UV pulses at 100 kHz via resonant dispersive wave emission in an argon-filled hollow capillary. We measure a few µJ UV pulse energies both in linear and circular polarization. The dispersive wave emission is driven by 1030 nm 28 fs pulses generated by a ytterbium laser temporally compressed in a single-stage multipass cell. The UV source has a short-term (over a 1 s time scale) relative intensity noise of 0.58%. Coupled with the high repetition rate and the versatile polarization state, this makes it a relevant source for statistically demanding spectroscopy.

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Cite This Study

Parize et al. (Fri,) studied this question.

synapsesocial.com/papers/69a75f37c6e9836116a2a6d1 https://doi.org/https://doi.org/10.1364/ol.587426

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