Low stress, anomalous dispersive silicon nitride waveguides fabricated by reactive sputtering
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Frigg, Andreas
Boes, Andreas
Ren, Guanghui
Choi, Duk-Yong
Gees, Silvio
Mitchell, Arnan
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IEEE
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Silicon nitride (SiN) waveguides are a promising platform for nonlinear photonic devices, as it offers a large bandgap, low two-photon absorption, CMOS-compatible fabrication methods and a significant nonlinearity [1,2]. Prominent applications are optical frequency comb generation [2] and supercontinuum generation [3]. These applications require waveguides with an anomalous group velocity dispersion in order to be efficient, which can be achieved by tailoring the waveguide dimensions [2,3]. Optical-quality SiN films are commonly deposited by LPCVD, however the high processing temperatures (> 800 C) can cause a high layer stress and crack formation. In this work we investigate reactive magnetron sputtering (PVD) as a method for low temperature (< 150 C) deposition of SiN thin-films for optical waveguides. 2019 IEEE.
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Proceedings of the 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference, CLEO/Europe-EQEC 2019
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2099-12-31