Atom Arrays Coupled to Optical Microcavities for Quantum Information Processing

Brandon Grinkemeyer; Elmer Guardado-Sanchez; Ivana Dimitrova; Danilo Shchepanovich; Eirini Mandopoulou; Andrei Ruskuc; Sophie Weiyi Ding; Alexander Zibrov; Matthew Bilotta; Rui Jiang; Offek Tziperman; Michel Tao; Kiyoul Yang; Johannes Borregaard; Vladan Vuletic; Mikhail D Lukin

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.

June 19, 2025, 2:06 PM – June 19, 2025, 2:18 PM

Publication: Grinkemeyer, Brandon, et al. "Error-Detected Quantum Operations with Neutral Atoms Mediated by an Optical Cavity." arXiv preprint arXiv:2410.10787 (2024).

Presenters

Brandon Grinkemeyer

Harvard University

Authors

Brandon Grinkemeyer

Harvard University
Elmer Guardado-Sanchez

Harvard University
Ivana Dimitrova

Harvard University
Danilo Shchepanovich

Harvard University
Eirini Mandopoulou

Harvard University
Andrei Ruskuc

Harvard University
Sophie Weiyi Ding

Harvard University
Alexander Zibrov

Harvard University
Matthew Bilotta

Harvard University
Rui Jiang

Harvard University
Offek Tziperman

Harvard University
Michel Tao

Harvard University
Kiyoul Yang

Harvard University
Johannes Borregaard

Harvard University
Vladan Vuletic

Massachusetts Institute of Technology
Mikhail D Lukin

Harvard University