Atom Arrays Coupled to Optical Microcavities for Quantum Information Processing
ORAL
Abstract
The integration of single neutral atoms in optical tweezers with high-finesse optical cavities enables efficient light-matter interfaces for quantum information processing. Here, we present the coupling of an atomic tweezer array to a Fabry-Pérot fiber cavity (FPFC), achieving strong coupling with single atom cooperativities exceeding C>100. This platform enables high-fidelity, cavity-assisted quantum operations, including nondestructive state detection and coherent atom-photon interactions. Our results highlight the potential of tweezer arrays coupled to optical microcavities for scalable quantum computing and quantum networking architectures.
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Publication: Grinkemeyer, Brandon, et al. "Error-Detected Quantum Operations with Neutral Atoms Mediated by an Optical Cavity." arXiv preprint arXiv:2410.10787 (2024).
Presenters
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Brandon Grinkemeyer
Authors
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Brandon Grinkemeyer
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Elmer Guardado-Sanchez
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Ivana Dimitrova
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Danilo Shchepanovich
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Eirini Mandopoulou
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Andrei Ruskuc
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Sophie Weiyi Ding
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Alexander Zibrov
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Matthew Bilotta
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Rui Jiang
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Offek Tziperman
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Michel Tao
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Kiyoul Yang
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Johannes Borregaard
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Vladan Vuletic
Massachusetts Institute of Technology
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Mikhail D Lukin