Paper 14092-46
Paper 14092-46
Octave-spanning soliton Kerr microcomb with a record number of comb lines at an electronically detectable repetition rate in a single Si3N4 racetrack resonator
15 April 2026 • 16:50 - 17:10 CEST | Churchill (Niveau/Level 1)
Abstract
We demonstrate generation of an octave-spanning soliton frequency comb in a single 15 GHz silicon nitride racetrack resonator pumped by picosecond pulses synchronized to the cavity repetition rate. The soliton state is achieved with 600 mW of average pump power. Euler bends with adiabatically varying curvature suppress higher-order spatial modes, producing a smooth spectrum with dual dispersive waves. Long directional couplers and low-loss fabrication enable strong high-frequency coupling, allowing efficient extraction of higher-order dispersive waves without precise dispersion engineering. The generated comb spans 24.7 THz (12 fs pulse duration) and contains approximately 8,800 lines, including 4,500 within a 3 dB bandwidth—representing, to our knowledge, the largest number of comb lines reported from a single microresonator.
Presenter
Alisa Davydova
Swiss Federal Institute of Technology Lausanne (EPFL) (Switzerland)
Alisa Davydova is a PhD student at the Laboratory of Photonics and Quantum Measurements at EPFL, Switzerland. She received her BSc in Physics, at Lomonosov Moscow State University, and her M. Sc. in Photonics and Quantum Materials, at Skolkovo Institute of Science and Technology. Her current research focuses on integrated frequency combs, dispersion engineering, and ultrafast pulse generation in high-Q photonic devices. She has authored 4 peer-reviewed publications and regularly presents at international conferences including European Conference on Integrated Optics (ECIO) and CLEO.