Supercontinuum Spanning 2.8 Octaves in 4H-Silicon-Carbide Waveguides
2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)(2023)
摘要
Supercontinuum generation has been widely investigated as a way to considerably extend the span of an optical frequency comb, while maintaining its coherence. One area of application is gas-phase spectroscopy in the molecular-fingerprint mid-infrared region. 4H-Silicon-Carbide (SiC) on insulator has emerged as a competitive platform for non-linear optics. Recent progress in the fabrication process of waveguides have lowered the propagation loss down to 0.08 dB/cm [1], while the material exhibits strong second and third order optical nonlinearities, a wide transparency window, and a high refractive index contrast with the silica cladding.
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关键词
4H-silicon-carbide on insulator,4H-silicon-carbide waveguides,energy 0.19 nJ,gas-phase spectroscopy,molecular-fingerprint mid-infrared region,on-chip pulse energies,optical frequency comb,power-efficient spectrometers,propagation loss,refractive index contrast,second order optical nonlinearity,SiC/int,silica cladding,SiO2/int,supercontinuum generation,telecom-wavelength frequency comb,third order optical nonlinearity,transparency window,ultrafast nonlinear optics
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