Jiefei Zhang, Gregory D. Grant, Ignas Masiulionis, Michael T. Solomon, Jonathan C. Marcks, Jasleen K. Bindra, Jens Niklas, Alan M. Dibos, Oleg G. Poluektov, F. Joseph Heremans, Supratik Guha, David D. Awschalom
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引用次数: 0
摘要
具有电信波段光学转换的稳健自旋光子接口对于量子网络技术至关重要。铒(Er)离子是理想的候选材料,它在电信波段(C 波段)具有受环境保护的转换。寻找合适的技术兼容的宿主材料以实现长寿命自旋仍然是一个主要障碍。我们介绍了一种基于二氧化铈(CeO2)中铒离子的新平台,它是在硅上外延生长的近零核自旋环境(0.04%),为光电设备提供了硅兼容性。我们的研究重点是 Er3+ 离子,结果表明,在 3.6 K 时,其均匀窄线宽为 440 kHz,光学相干时间为 0.72 μs。核自旋噪声的降低使得自旋晶格弛豫缓慢,在 3.6 K 时,自旋弛豫时间可达 2.5 ms,电子自旋相干时间为 0.66 μs(在孤立离子极限)。
Optical and spin coherence of Er spin qubits in epitaxial cerium dioxide on silicon
Robust spin-photon interfaces with optical transitions in the telecommunication band are essential for quantum networking technologies. Erbium (Er) ions are the ideal candidate with environmentally protected transitions in telecom-C band. Finding the right technologically compatible host material to enable long-lived spins remains a major hurdle. We introduce a new platform based on Er ions in cerium dioxide (CeO2) as a nearly-zero nuclear spin environment (0.04%) epitaxially grown on silicon, offering silicon compatibility for opto-electrical devices. Our studies focus on Er3+ ions and show a narrow homogeneous linewidth of 440 kHz with an optical coherence time of 0.72 μs at 3.6 K. The reduced nuclear spin noise enables a slow spin-lattice relaxation with a spin relaxation time up to 2.5 ms and an electron spin coherence time of 0.66 μs (in the isolated ion limit) at 3.6 K. These findings highlight the potential of Er3+:CeO2 platform for quantum networks applications.
期刊介绍:
The scope of npj Quantum Information spans across all relevant disciplines, fields, approaches and levels and so considers outstanding work ranging from fundamental research to applications and technologies.
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