Ultra-Broadband Bragg Scattering Four Wave Mixing in Silicon Rich Silicon Nitride Waveguides
Optical Fiber Communication Conference, 2019•opg.optica.org
… We show the first demonstration of Bragg scattering inter-modal four-wavemixing in silicon-rich
SiN waveguides. We report wavelength conversion using two spatial modes, exhibiting a
maximum efficiency of -15-dB over a flat-bandwidth in excess of 30-nm. … In this work, we utilize
our internally developed silicon-rich silicon nitride platform [7] to design an ultra-broadband,
integrated IM-FWM device. The … In this work we have demonstrated Bragg scattering
inter-modal FWM on silicon-rich silicon waveguides, demonstrating broadband conversion over …
SiN waveguides. We report wavelength conversion using two spatial modes, exhibiting a
maximum efficiency of -15-dB over a flat-bandwidth in excess of 30-nm. … In this work, we utilize
our internally developed silicon-rich silicon nitride platform [7] to design an ultra-broadband,
integrated IM-FWM device. The … In this work we have demonstrated Bragg scattering
inter-modal FWM on silicon-rich silicon waveguides, demonstrating broadband conversion over …
Abstract
We show the first demonstration of Bragg scattering inter-modal four-wave-mixing in silicon-rich SiN waveguides. We report wavelength conversion using two spatial modes, exhibiting a maximum efficiency of− 15-dB over a flat-bandwidth in excess of 30-nm.
opg.optica.org
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