Stability and Intrinsic Fluctuations of Dissipative Cavity Solitons in Kerr Frequency Microcombs

Stability and Intrinsic Fluctuations of Dissipative Cavity Solitons in Kerr Frequency Microcombs

Blog Article

The generation of dissipative cavity solitons is one of the most whelen arges spotlight intriguing features of microresonator-based Kerr frequency combs, enabling effective mode locking of comb modes and synthesis of ultrafast pulses.With the Lugiato-Lefever model, here, we conduct detailed theoretical investigations on the transient dynamics of dissipative cavity solitons and describe how several intrinsic effects of the Kerr comb disturb the stability of cavity solitons, including soliton breathing, 12n/1200 wella higher order dispersion, dispersive wave emission, and cavity mode coupling.Our results and analysis agree well with recent measurements and provide insight into some as yet unexplained observations.