English

Spatially multiplexed single-cavity dual-comb laser

Optics 2022-06-28 v2

Abstract

Single-cavity dual-comb lasers are a new class of ultrafast lasers which have a wide possible application space including pump-probe sampling, optical ranging, and gas absorption spectroscopy. However, to this date laser cavity multiplexing usually came to the trade-off in laser performance or relative timing noise suppression. We present a new method for multiplexing a single laser cavity to support a pair of noise-correlated modes. These modes share all intracavity components and take a near-common path, but do not overlap on any active elements. We implement the method with an 80-MHz laser delivering more than 2.4 Watts of average power per comb with sub-140 fs pulses. We reach sub-cycle relative timing jitter of 2.2 fs [20 Hz, 100 kHz]. With this new multiplexing technique, we could implement slow feedback on the repetition rate difference {\Delta}frep, enabling this quantity to be drift-free, low-jitter, and adjustable - a key combination for practical applications that was lacking in prior single-cavity dual-comb systems.

Keywords

Cite

@article{arxiv.2203.08536,
  title  = {Spatially multiplexed single-cavity dual-comb laser},
  author = {J. Pupeikis and B. Willenberg and S. L. Camenzind and A. Benayad and P. Camy and C. R. Phillips and U. Keller},
  journal= {arXiv preprint arXiv:2203.08536},
  year   = {2022}
}
R2 v1 2026-06-24T10:15:30.295Z