High-power Raman lasing and efficient anti-Stokes generation in mm-sized crystalline disk resonators-Reference-Cited by-同舟云学术

High-power Raman lasing and efficient anti-Stokes generation in mm-sized crystalline disk resonators

Published:2024-05-02 Issue:10 Volume:49 Page:2529
ISSN:0146-9592
Container-title:Optics Letters
language:en
Short-container-title:Opt. Lett.

Author:

Bhadkamkar A. S.¹,Carpenter S.²^ORCID,Gold D. C.²,Beede M.²,Goldsmith R. H.³^ORCID,van der Weide D.¹,Yavuz D. D.²

Affiliation:

1. Electrical and Computer Engineering

2. Department of Physics

3. Department of Chemistry

Abstract

We have previously experimentally observed high-power Stokes and second-order Stokes output from a mm-sized CaF2 disk using stimulated Raman scattering. A pump laser at a wavelength of 1.06 µm was coupled via a tapered fiber to the whispering gallery modes (WGM) of the disk. In this Letter, we extend this work and demonstrate the production of the first anti-Stokes sideband at power levels as high as 60 µW in near continuous-wave (CW) operation. The result is a four-component Raman comb at the output, with a wavelength range covering from 1.023 to 1.14 µm. We discuss the threshold dependence of the observed Raman lines on the crystal orientation and provide experimental validation. These advances enable the use of such mm-sized resonators as compact, efficient sources for terahertz-level frequency modulation.

Funder

Wisconsin Alumni Research Foundation

Publisher

Optica Publishing Group

Reference25 articles.

1. 20 years of developments in optical frequency comb technology and applications

2. Compact, fiber-compatible, cascaded Raman laser

3. All-Optical Control of an Individual Resonance in a Silicon Microresonator

4. Raman–Kerr frequency combs in Zr-doped silica hybrid microresonators

5. Mid-infrared Raman lasers and Kerr-frequency combs from an all-silica narrow-linewidth microresonator/fiber laser system