We discuss recent advances in the modelling of optical frequency comb generation in quadratic and cubic microresonators. Dierent time domain models are presented and compared, and their solutions are analysed by numerical methods
Continuously-driven microresonators, whose nonlinear response is dominated by the third-order Kerr n...
We introduce the single envelope equation for the numerical modelling of ultra-broadband optical fre...
Nonlinear interactions in quadratic materials have for long been used to replicate and extend optic...
We discuss recent advances in the modelling of optical frequency comb generation in quadratic and cu...
Perhaps one of the most spectacular current applications of nonlinear integrated optics, a field whi...
We present theoretical studies of optical frequency comb generation in dispersive quadratically nonl...
We overview recent advances in the modeling of optical frequency comb generation in optical microre...
Optical frequency comb sources based on three-wave-mixing in quadratic nonlinear materials allow for...
Optical frequency combs are one of the most remarkable inventions in recent decades. Originally con...
We present a comprehensive review of recent work on numerical modelling of frequency comb generation...
Microresonator frequency combs hold promise for enabling a new class of light sources that are simul...
We numerically study, by means of the single envelope equation, the generation of optical frequency ...
Various aspects of the nonlinear dynamics of Kerr frequency comb generation in optical microresonato...
Microresonator-based optical frequency combs (“microcombs”) have attracted lots of attention in the ...
We describe the physics and modelling of frequency combs and corresponding temporal patterns in cohe...
Continuously-driven microresonators, whose nonlinear response is dominated by the third-order Kerr n...
We introduce the single envelope equation for the numerical modelling of ultra-broadband optical fre...
Nonlinear interactions in quadratic materials have for long been used to replicate and extend optic...
We discuss recent advances in the modelling of optical frequency comb generation in quadratic and cu...
Perhaps one of the most spectacular current applications of nonlinear integrated optics, a field whi...
We present theoretical studies of optical frequency comb generation in dispersive quadratically nonl...
We overview recent advances in the modeling of optical frequency comb generation in optical microre...
Optical frequency comb sources based on three-wave-mixing in quadratic nonlinear materials allow for...
Optical frequency combs are one of the most remarkable inventions in recent decades. Originally con...
We present a comprehensive review of recent work on numerical modelling of frequency comb generation...
Microresonator frequency combs hold promise for enabling a new class of light sources that are simul...
We numerically study, by means of the single envelope equation, the generation of optical frequency ...
Various aspects of the nonlinear dynamics of Kerr frequency comb generation in optical microresonato...
Microresonator-based optical frequency combs (“microcombs”) have attracted lots of attention in the ...
We describe the physics and modelling of frequency combs and corresponding temporal patterns in cohe...
Continuously-driven microresonators, whose nonlinear response is dominated by the third-order Kerr n...
We introduce the single envelope equation for the numerical modelling of ultra-broadband optical fre...
Nonlinear interactions in quadratic materials have for long been used to replicate and extend optic...
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