Wideband multimode optical parametric oscillation in a Kerr microresonator

Abstract

Parametric oscillation in Kerr microresonators provides an attractive pathway for the generation of new optical frequencies in a low-power, small-footprint device. The frequency shift of the newly generated parametric sidebands is set by the phasematching of the underlying four-wave-mixing process, with the generation of large frequency shift sidebands typically placing exacting requirements on a resonator’s dispersion profile. In practice, this limits the range of viable pump wavelengths, and ultimately the range of output frequencies. In this paper, we consider a multimode four-wave-mixing process in which the pump and sidebands propagate in different mode families of the resonator. We show that this multimode configuration yields a considerable relaxation in the phasematching requirements needed to generate large frequency shift parametric sidebands, allowing their formation even in resonators with strong second-order dispersion. Experimentally we use a magnesium-fluoride micro-disk resonator to demonstrate this multimode phasematching. By accessing different pump and sideband modes, four distinct multimode parametric processes generating frequency shifts between 118 and 216 THz are reported. The resulting separation between the two sidebands is almost three octaves.

Publication
Optics Express
Farhan Azeem
Farhan Azeem
Research Consultant

I work on Resonant Optics.

Luke S. Trainor
Luke S. Trainor
Postdoctoral Fellow

I work on Resonant Optics.

Harald G. L. Schwefel
Harald G. L. Schwefel
Associate Professor

I work on Resonant Optics.