Cavity Quantum Electrodynamics Effects with Nitrogen Vacancy Center Spins in Diamond and Microwave Resonators at Room Temperature

• URL: http://arxiv.org/abs/2110.10950v1
• Date: Thu, 21 Oct 2021 07:56:17 GMT
• Title: Cavity Quantum Electrodynamics Effects with Nitrogen Vacancy Center Spins in Diamond and Microwave Resonators at Room Temperature
• Authors: Yuan Zhang, Qilong Wu, Shi-Lei Su, Qing Lou, ChongXin Shan, Klaus M{\o}lmer
• Abstract summary: Cavity quantum electrodynamics (C-QED) effects have been demonstrated with nitrogen vacancy center spins in diamond in microwave resonators at cryogenic temperature. We show the possibility to realize strong collective coupling and the resulting C-QED effects with ensembles of spins at room temperature. The resulting population of Dicke states with higher symmetry implies strong coupling with currently available high-quality resonators.
• Score: 4.620106182077669
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Cavity quantum electrodynamics (C-QED) effects, such as Rabi splitting, Rabi oscillations and superradiance, have been demonstrated with nitrogen vacancy center spins in diamond in microwave resonators at cryogenic temperature. In this article we explore the possibility to realize strong collective coupling and the resulting C-QED effects with ensembles of spins at room temperature. Thermal excitation of the individual spins by the hot environment leads to population of collective Dicke states with low symmetry and a reduced collective spin-microwave field coupling. However, we show with simulations that the thermal excitation can be compensated by spin-cooling via optical pumping. The resulting population of Dicke states with higher symmetry implies strong coupling with currently available high-quality resonators and enables C-QED effects at room temperature with potential applications in quantum sensing and quantum information processing.

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