English

Lasing on hybridized soliton frequency combs

Optics 2025-02-18 v1

Abstract

Coupling is an essential mechanism that drives complexity in natural systems, transforming single, non-interacting elements into intricate networks with rich physical properties. Here, we demonstrate a chip-scale coupled laser system that exhibits complex optical states impossible to achieve in an uncoupled system. We show that a pair of coupled semiconductor ring lasers spontaneously forms a frequency comb consisting of the hybridized modes of its coupled cavity, exhibiting a large number of phase-locked tones that anticross with one another. Experimental coherent waveform reconstruction reveals that the hybridized frequency comb manifests itself as pairs of bright and dark picosecond-long solitons circulating simultaneously. The dark and bright solitons exit the coupled cavity at the same time, leading to breathing bright solitons temporally overlapped with their dark soliton counterparts - a state inaccessible for a single, free-running laser. Our results demonstrate that the rules that govern allowable states of light can be broken by simply coupling elements together, paving the way for the design of more complex networks of coupled on-chip lasers.

Keywords

Cite

@article{arxiv.2408.09284,
  title  = {Lasing on hybridized soliton frequency combs},
  author = {Theodore P. Letsou and Dmitry Kazakov and Pawan Ratra and Lorenzo L. Columbo and Massimo Brambilla and Franco Prati and Cristina Rimoldi and Sandro Dal Cin and Nikola Opačak and Henry O. Everitt and Marco Piccardo and Benedikt Schwarz and Federico Capasso},
  journal= {arXiv preprint arXiv:2408.09284},
  year   = {2025}
}

Comments

13 pages, 3 figures

R2 v1 2026-06-28T18:15:39.115Z