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Wet-Oxidation-Assisted Chemical Mechanical Polishing and High-Temperature Thermal Annealing for Low-Loss 4H-SiC Integrated Photonic Devices

Xiaodong Shi, Yaoqin Lu, Didier Chaussende, Karsten Rottwitt, Haiyan Ou

2023Materials12 citationsDOIOpen Access PDF

Abstract

Silicon carbide (SiC) has become a promising optical material for quantum photonics and nonlinear photonics during the past decade. In this work, we propose two methods to improve the 4H-SiC thin film quality for SiC integrated photonic chips. Firstly, we develop a wet-oxidation-assisted chemical mechanical polishing (CMP) process for 4H-SiC, which can significantly decrease the surface roughness from 3.67 nm to 0.15 nm, thus mitigating the light scattering loss. Secondly, we find that the thermal annealing of the 4H-SiC devices at 1300 °C can help to decrease the material absorption loss. We experimentally demonstrate that the wet-oxidation-assisted CMP and the high-temperature annealing can effectively increase the intrinsic quality factor of the 4H-SiC optical microring resonators.

Topics & Concepts

Materials sciencePhotonicsAnnealing (glass)PolishingChemical-mechanical planarizationSurface roughnessSilicon carbideOptoelectronicsThermal oxidationSurface finishComposite materialSiliconDiamond and Carbon-based Materials ResearchAdvanced Surface Polishing TechniquesAdvanced Fiber Laser Technologies
Wet-Oxidation-Assisted Chemical Mechanical Polishing and High-Temperature Thermal Annealing for Low-Loss 4H-SiC Integrated Photonic Devices | Litcius