Long-lived dark states in a superconductor diamond hybrid quantum system

William J. Munro; Xiaobo Zhu; Yuichiro Matsuzaki; Robert Amsüss; Robert Amsüss; Kosuke Kakuyanagi; Takaaki Shimo-Oka; Norikazu Mizuochi; Kae Nemoto; Kouichi Semba; Shiro Saito

doi:10.1364/CLEO_QELS.2014.FTu3A.3

CLEO: 2014
OSA Technical Digest (online) (Optica Publishing Group, 2014),
paper FTu3A.3
•https://doi.org/10.1364/CLEO_QELS.2014.FTu3A.3

Long-lived dark states in a superconductor diamond hybrid quantum system

William J. Munro, Xiaobo Zhu, Yuichiro Matsuzaki, Robert Amsüss, Kosuke Kakuyanagi, Takaaki Shimo-Oka, Norikazu Mizuochi, Kae Nemoto, Kouichi Semba, and Shiro Saito

CLEO: QELS_Fundamental Science 2014

San Jose, California United States
8–13 June 2014
ISBN: 978-1-55752-999-2

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Quantum Repeater Technologies (FTu3A)

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W. J. Munro, X. Zhu, Y. Matsuzaki, R. Amsüss, K. Kakuyanagi, T. Shimo-Oka, N. Mizuochi, K. Nemoto, K. Semba, and S. Saito, "Long-lived dark states in a superconductor diamond hybrid quantum system," in CLEO: 2014, OSA Technical Digest (online) (Optica Publishing Group, 2014), paper FTu3A.3.

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Abstract

The research into quantum science and technology has reached an interesting stage where we can now in principle engineer composite systems to exploit the best properties of these individual systems. Such hybridization techniques have been demonstrated for instance with superconducting circuits and electron spin ensembles where strong coupling and the coherent transfer & storage of quantum information has been achieved. However in these cases, generally the hybrid system properties have not exceeded those of the individual systems. Recently we have observed a remarkably sharp resonance in the spectrum of flux qubit NV- diamond hybrid quantum system with no external magnetic field applied to the diamond. What is surprising is that its measured line-width is much narrower than that of both the flux-qubit and spin ensemble. We show this resonance is evidence of a collective & long-lived dark state.

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