English

Dual-comb correlation spectroscopy reveals laser dynamics

Optics 2025-12-09 v1 Applied Physics

Abstract

Laser dynamics underpin a broad range of modern photonic technologies and continue to reveal rich nonlinear behaviors. However, existing spectroscopic tools, most notably time-stretched dispersive Fourier transform spectroscopy (TS-DFT), remain limited in spectral resolution, accuracy, and their ability to capture continuous waveforms and complex field dynamics. Here, we introduce dual-comb correlation spectroscopy (DCCS) as a powerful approach for resolving fast and intricate laser behaviors that are inaccessible to TS-DFT and conventional spectrometers. By correlating two sequences of heterodyne spectra produced by mixing a test laser with a pair of optical combs, DCCS enables rapid (e.g., 1 us) and high-resolution (0.08 pm) spectral retrieval over broad optical bandwidths. Leveraging these capabilities, we reveal mode-hopping and mode-competition dynamics in continuous-wave lasers, as well as the buildup process of a mode-locked laser. These results establish DCCS as a versatile and complementary tool to TS-DFT for exploring transient, broadband, and previously unresolvable behaviors in lasers and other time-evolving optical systems.

Keywords

Cite

@article{arxiv.2512.06320,
  title  = {Dual-comb correlation spectroscopy reveals laser dynamics},
  author = {Xiuxiu Zhang and Zhuoren Wan and Yuling Sheng and Ming Yan and Yuan Chen and Zijian Wang and Zhaoyang Wen and Min Li and Heping Zeng},
  journal= {arXiv preprint arXiv:2512.06320},
  year   = {2025}
}

Comments

21 pages, 4 figures

R2 v1 2026-07-01T08:12:49.182Z