Communications Physics (Sep 2023)

Nonlocal bonding of a soliton and a blue-detuned state in a microcomb laser

  • Antonio Cutrona,
  • Vittorio Cecconi,
  • Pierre H. Hanzard,
  • Maxwell Rowley,
  • Debayan Das,
  • Andrew Cooper,
  • Luke Peters,
  • Luana Olivieri,
  • Benjamin Wetzel,
  • Roberto Morandotti,
  • Sai T. Chu,
  • Brent E. Little,
  • David J. Moss,
  • Juan S. Totero Gongora,
  • Marco Peccianti,
  • Alessia Pasquazi

DOI
https://doi.org/10.1038/s42005-023-01372-0
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 10

Abstract

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Abstract Laser cavity-solitons can appear in a microresonator-filtered laser when judiciously balancing the slow nonlinearities of the system. Under certain conditions, such optical states can be made to self-emerge and recover spontaneously, and the understanding of their robustness is critical for practical applications. Here, we study the formation of a bonded state comprising a soliton and a blue-detuned continuous wave, whose coexistence is mediated by dispersion in the nonlinear refractive index. Our real-time dispersive Fourier transform measurements, supported by comprehensive theoretical analysis, reveal the presence of an elastic bonding between the two states, resulting in an enhancement of the soliton’s robustness.