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Photonic Quantum Computing
Tunable cavity coupling to spin defects in 4H-silicon-carbide-on-insulator platform
arXiv
Authors: Tongyuan Bao, Qi Luo, Ailun Yin, Yao Zhang, Haibo Hu, Zhengtong Liu, Shumin Xiao, Xin Ou, Yu Zhou, Qinghai Song
Year
2024
Paper ID
56907
Status
Preprint
Abstract Read
~2 min
Abstract Words
150
Citations
N/A
Abstract
Silicon carbide (SiC) has attracted significant attention as a promising quantum material due to its ability to host long-lived, optically addressable color centers with solid-state photonic interfaces. The CMOS compatibility of 4H-SiCOI (silicon-carbide-on-insulator) makes it an ideal platform for integrated quantum photonic devices and circuits. While micro-ring cavities have been extensively studied in SiC and other materials, the integration of 4H-SiC spin defects into these critical structures, along with continuous mode tunability, remains unexplored. In this work, we demonstrate the integration of PL4 divacancy spin defects into tunable micro-ring cavities in scalable thin-film 4H-SiC nanophotonics. Comparing on- and off-resonance conditions, we observed an enhancement of the Purcell factor by approximately 5.0. This enhancement effectively confined coherent photons within the coupled waveguide, leading to a twofold increase in the ODMR (optically detected magnetic resonance) contrast and coherent control of PL4 spins. These advancements lay the foundation for developing SiC-based quantum photonic circuits.
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- This paper contributes to the Photonic Quantum Computing research area in the Quantum Articles archive.
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- Silicon carbide (SiC) has attracted significant attention as a promising quantum material due to its ability to host long-lived, optically addressable color centers with...
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