Simulating supercontinua from mixed and cascaded nonlinearities

Abstract: Nonlinear optical frequency conversion is of fundamental importance in photonics and underpins countless of its applications: Sum- and difference-frequency generation in media with quadratic nonlinearity permits reaching otherwise inaccessible wavelength regimes, and the dramatic effect of supercontinuum generation through cubic nonlinearities has resulted in the synthesis of broadband multi-octave spanning spectra, much beyond what can be directly achieved with laser gain media. Chip-integrated waveguides per… Show more

“…Our model can easily be modified to investigate more complex dispersive systems such as fiber-feedback OPOs [33,34], solving the generalised nonlinear Schrödinger equation for the fiber via the SSFM and adaptive step-size algorithm. Our approach can also be extended to simulating supercontinuum generation in aperiodically-poled waveguides [35], where GPU parallelism enables rapid iteration of chirped grating periods via optimisation of an appropriate fitness function.…”

GPU-Accelerated Full-Field Modelling of Highly Dispersive Ultrafast Optical Parametric Oscillators

“…Our model can easily be modified to investigate more complex dispersive systems such as fiber-feedback OPOs [33,34], solving the generalised nonlinear Schrödinger equation for the fiber via the SSFM and adaptive step-size algorithm. Our approach can also be extended to simulating supercontinuum generation in aperiodically-poled waveguides [35], where GPU parallelism enables rapid iteration of chirped grating periods via optimisation of an appropriate fitness function.…”

GPU-Accelerated Full-Field Modelling of Highly Dispersive Ultrafast Optical Parametric Oscillators

Second Harmonic Generation and $${\varvec{\upchi}}$$(2) Cascading in Periodically Poled MgO:LiNbO3 Photonic Wires

Coherence analysis of supercontinuum generation in nitrobenzene liquid-core photonic crystal fiber based on adaptive step-size methods