What question did this study set out to answer?

The aim is to investigate phase-matching conditions for cascaded Brillouin lasers using intracavity Raman pumping.

March 26, 2026

Phase-matched cascaded Brillouin lasers via single-frequency intracavity Raman pumping

Key Points

The aim is to investigate phase-matching conditions for cascaded Brillouin lasers using intracavity Raman pumping.
Utilized a free-space Brillouin oscillator for experimentation.
Excited intracavity Raman scattering with a single-frequency laser.
Controlled resonance conditions between cavity modes and Brillouin frequency shifts.
Demonstrated continuous tuning from the 1st to 5th single-frequency order.
Achieved accurate control over cascaded Brillouin laser orders.
Successfully tuned to multiple frequencies at a wavelength of 1.2 μm.
Extended Raman conversion achieved in the 1.5 μm wavelength region, expanding the laser spectrum.

Abstract

Stimulated Brillouin scattering (SBS) enables multi-frequency, high coherent laser emission due to its narrow gain bandwidth and cascaded phase matching. Using a free-space Brillouin oscillator, we systematically study its phase-matching conditions. Experimentally, intracavity Raman scattering is excited by a single-frequency laser to generate SBS. Precise control over the resonance condition between cavity modes and the Brillouin frequency shift allows accurate order control of the cascaded Brillouin laser, demonstrating continuous tuning from the 1st to 5th single-frequency order at 1.2 μm. Furthermore, by extending the Raman conversion to the 1.5 μm region, we realize spectral expansion of the multi-frequency, highly coherent laser source.

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Phase-matched cascaded Brillouin lasers via single-frequency intracavity Raman pumping

Key Points

Abstract

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