Cavity-enhanced harmonic generation in silicon rich nitride photonic crystal microresonators
Marco ClementiKapil DebnathMoïse SottoAndrea BaroneAli Z. KhokharThalía Domínguez BucioShinichi SaitoFrédéric Y. GardesDaniele BajoniMattéo Galli
Abstract
We report second and third harmonic generation in photonic crystal cavities fabricated in a suspended silicon-rich nitride membrane under resonant continuous-wave excitation at telecom wavelength. Two-dimensional photonic crystal cavities with a far-field optimized line-width modulated design were employed. A quality factor at fundamental wavelength as high as Q = 1.3 × 104 and a coupling efficiency ηc ≈ 30% enabled us to exploit the cavity field enhancement to achieve the generation efficiencies ρSH = (4.7 ± 0.2) × 10−7 W−1 and ρTH = (5.9 ± 0.3) × 10−5 W−2. The absence of saturation effects at high power and the transparency of the device at the second harmonic wavelength suggest the absence of two-photon absorption and related detrimental effects.
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