Control and Transient Spectroscopy of Engineered Spin-Cavity Back-Action

• URL: http://arxiv.org/abs/2504.05133v1
• Date: Mon, 07 Apr 2025 14:36:45 GMT
• Title: Control and Transient Spectroscopy of Engineered Spin-Cavity Back-Action
• Authors: Fatemeh Fani Sani, George Nichols, Ivar Taminiau, Saba Sadeghi, Hamid R. Mohebbi, David G. Cory, Troy W. Borneman,
• Abstract summary: We present an experimental arrangement that permits engineering of cavity back-action on a mesoscopic spin ensemble.<n>By coupling a superconducting thin-film Nb microstrip resonator to a Trityl OX63 electron spin sample, we access different regimes of spin-cavity dynamics.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We present an experimental arrangement that permits engineering of cavity back-action on a mesoscopic spin ensemble. By coupling a superconducting thin-film Nb microstrip resonator to a Trityl OX63 electron spin sample, we access different regimes of spin-cavity dynamics by designing the ensemble size, effective coupling strength, cavity temperature, and spin saturation. We performed transient spectroscopy measurements under continuous microwave drive in the strong radiation damping regime. These measurements exhibit a long-lived plateau response that distinguishes important features of spin-cavity models, such as the radiation damping Bloch equations and Maxwell-Bloch equations. We demonstrate control of the plateau response through adjustment of temperature, microwave drive power, and variable spin saturation. The presented experimental arrangement serves as a robust system to explore the space of spin-cavity dynamics and develop new quantum devices that harness the complexity of mesoscopic spin ensembles coherently interacting with high quality factor cavities.

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