English

On-Chip Diamond Raman Laser

Optics 2015-11-12 v1

Abstract

Synthetic single-crystal diamond has recently emerged as a promising platform for Raman lasers at exotic wavelengths due to its giant Raman shift, large transparency window and excellent thermal properties yielding a greatly enhanced figure-of-merit compared to conventional materials. To date, diamond Raman lasers have been realized using bulk plates placed inside macroscopic cavities, requiring careful alignment and resulting in high threshold powers (~W-kW). Here we demonstrate an on-chip Raman laser based on fully-integrated, high quality-factor, diamond racetrack micro-resonators embedded in silica. Pumping at telecom wavelengths, we show Stokes output discretely tunable over a ~100nm bandwidth around 2-{\mu}m with output powers >250 {\mu}W, extending the functionality of diamond Raman lasers to an interesting wavelength range at the edge of the mid-infrared spectrum. Continuous-wave operation with only ~85 mW pump threshold power in the feeding waveguide is demonstrated along with continuous, mode-hop-free tuning over ~7.5 GHz in a compact, integrated-optics platform.

Keywords

Cite

@article{arxiv.1509.00373,
  title  = {On-Chip Diamond Raman Laser},
  author = {Pawel Latawiec and Vivek Venkataraman and Michael J. Burek and Birgit J. M. Hausmann and Irfan Bulu and Marko Loncar},
  journal= {arXiv preprint arXiv:1509.00373},
  year   = {2015}
}

Comments

13 pages, 4 figures

R2 v1 2026-06-22T10:46:37.782Z