Microwave mode cooling and cavity quantum electrodynamics effects at room temperature with optically cooled nitrogen-vacancy center spins

Yuan Zhang*, Qilong Wu, Hao Wu, Xun Yang, Shi Lei Su, Chongxin Shan*, Klaus Mølmer*

*此作品的通讯作者

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摘要

Recent experimental and theoretical studies demonstrated microwave mode cooling and cavity quantum electrodynamics (C-QED) effects at room temperature by using optically cooled nitrogen-vacancy (NV) spins. In this article, we consider improvements of these effects by exploring parameters in recent diamond maser experiments with a high frequency microwave resonator. By accounting for the rich electronic and spin levels, we provide a more complete treatment of optical pumping and dissipation in NV centers, and study the dependence of system performance on laser power. We predict the reduction of microwave photon number down to 261 (equivalent to a temperature of 116 K), about five times lower than the values reported recently. We also predict the laser-power controlled C-QED effects across weak-to-strong coupling regimes, and observe saturation of these effects under strong laser pumping. Our model can be modified straightforwardly to investigate similar effects with other solid-state spins and possible C-QED effects in maser operation.

源语言英语
文章编号125
期刊npj Quantum Information
8
1
DOI
出版状态已出版 - 12月 2022

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Zhang, Y., Wu, Q., Wu, H., Yang, X., Su, S. L., Shan, C., & Mølmer, K. (2022). Microwave mode cooling and cavity quantum electrodynamics effects at room temperature with optically cooled nitrogen-vacancy center spins. npj Quantum Information, 8(1), 文章 125. https://doi.org/10.1038/s41534-022-00642-z