
Soliton based χ(2) combs in high-Q optical microresonators
Author(s) -
Sergey Smirnov,
Valerii Andryushkov,
E. V. Podivilov,
B. Sturman,
Ingo Breunig
Publication year - 2021
Publication title -
optics express
Language(s) - Uncategorized
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.432529
Subject(s) - physics , resonator , frequency comb , soliton , optics , opos , lithium niobate , poling , nonlinear optics , whispering gallery wave , harmonic , optoelectronics , quantum mechanics , laser , nonlinear system , ferroelectricity , dielectric
Investigations of the frequency combs in χ (3) microresonators have passed a critical point when the soliton based regimes are well established and realized on different platforms. For χ (2) microresonators, where the first harmonic (FH) and second harmonic (SH) envelopes are coupled via the SH generation and optical parametric oscillation, the comb-soliton studies are just starting. Here we report on a vast accessible dual χ (2) soliton-comb family in high-Q microresonators with the SH and FH combs centered at the pump frequency ω p and its half ω p /2. Vicinity of the point of equal FH and SH group velocities λ c , available via proper radial poling, is found to be the most advantageous for the generation of spectrally broad dual FH-SH combs. Our predictions as applied to lithium niobate resonators include the dependence of comb and dissipative soliton parameters on the pump power, the deviation λ p - λ c , the modal quality factors and frequency detunings, and the necessary parameters of radial poling of the resonator. These predictions form a solid basis for the realization of χ (2) frequency combs.