Simultaneous blockade of a photon phonon, and magnon induced by a two-level atom

The hybrid microwave optomechanical-magnetic system has recently emerged as a promising candidate for coherent information processing because of the ultrastrong microwave photon-magnon coupling and the longlife of the magnon and phonon. As a quantum information processing device, the realization of...

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Veröffentlicht in:	arXiv.org 2020-09
Hauptverfasser:	Zhao, Chengsong, Li, Xun, Chao, Shilei, Peng, Rui, Li, Chong, Zhou, Ling
Format:	Artikel
Sprache:	eng
Schlagworte:	Cryogenic temperature Data processing Excitation Hybrid systems Information processing Magnons Phonons Photons Physics - Quantum Physics Quantum phenomena
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creator	Zhao, Chengsong Li, Xun Chao, Shilei Peng, Rui Li, Chong Zhou, Ling
description	The hybrid microwave optomechanical-magnetic system has recently emerged as a promising candidate for coherent information processing because of the ultrastrong microwave photon-magnon coupling and the longlife of the magnon and phonon. As a quantum information processing device, the realization of a single excitation holds special meaning for the hybrid system. In this paper, we introduce a single two-level atom into the optomechanical-magnetic system and show that an unconventional blockade due to destructive interference cannot offer a blockade of both the photon and magnon. Meanwhile, under the condition of single excitation resonance, the blockade of the photon, phonon, and magnon can be achieved simultaneously even in a weak optomechanical region, but the phonon blockade still requires the cryogenic temperature condition.
doi_str_mv	10.48550/arxiv.2009.09871
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subjects	Cryogenic temperature Data processing Excitation Hybrid systems Information processing Magnons Phonons Photons Physics - Quantum Physics Quantum phenomena
title	Simultaneous blockade of a photon phonon, and magnon induced by a two-level atom
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