Photo-induced cascaded harmonic and comb generation in silicon nitride microresonators

Abstract

Silicon nitride (Si3N4) is an ever-maturing integrated platform for nonlinear optics. Yet, due to the absence of second-order ((2)) nonlinearity, Si3N4 is mostly considered for third-order ((3)) nonlinear interactions. Recently, this limitation was overcome by optical poling in both Si3N4 waveguides and microresonators via the photogalvanic effect, resulting in the inscription of quasi-phase-matched (2) gratings. Here, we report cascaded nonlinear effects in a normal dispersion Si3N4 microresonator with combined (2) and (3) nonlinearities. We demonstrate that the photo-induced (2) grating also provides phase-matching for the sum-frequency generation process, enabling the initiation and successive switching of primary combs at pump wavelength. Additionally, the doubly resonant pump and second-harmonic fields allow for cascaded third-harmonic generation, where a secondary optically written (2) grating is identified. Finally, we reach a low-noise, broadband microcomb state evolved from the sum-frequency coupled primary comb. These results expand the scope of cascaded effects in (2) and (3) microresonators.