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Main Authors: Weng, Mingzhu, Yu, Hongwei, Wang, Zhihai
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.04954
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author Weng, Mingzhu
Yu, Hongwei
Wang, Zhihai
author_facet Weng, Mingzhu
Yu, Hongwei
Wang, Zhihai
contents In this paper, we propose a high-fidelity scheme for generating entangled states in a system of two and three giant atoms coupled to the coupled resonator waveguide. Our approach leverages the bound state in the continuum, which is robust against waveguide disorder. Specifically, we achieve a fidelity exceeding $98\%$ for Bell state generation, overcoming the limitations of conventional decoherence-free interaction mechanisms. This scheme can be readily extended to a three-giant-atom system for generating W states. In both the two- and three-atom setups, the maximally entangled states are generated in a short time and remain stable even as time approaches infinity. Our proposal is feasible for implementation on state-of-the-art solid-state quantum platforms and significantly broadens the applications of giant atoms and waveguide QED system in quantum information processing.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-fidelity Generation of Bell and W States in Giant Atom System via Bound State in the Continuum
Weng, Mingzhu
Yu, Hongwei
Wang, Zhihai
Quantum Physics
In this paper, we propose a high-fidelity scheme for generating entangled states in a system of two and three giant atoms coupled to the coupled resonator waveguide. Our approach leverages the bound state in the continuum, which is robust against waveguide disorder. Specifically, we achieve a fidelity exceeding $98\%$ for Bell state generation, overcoming the limitations of conventional decoherence-free interaction mechanisms. This scheme can be readily extended to a three-giant-atom system for generating W states. In both the two- and three-atom setups, the maximally entangled states are generated in a short time and remain stable even as time approaches infinity. Our proposal is feasible for implementation on state-of-the-art solid-state quantum platforms and significantly broadens the applications of giant atoms and waveguide QED system in quantum information processing.
title High-fidelity Generation of Bell and W States in Giant Atom System via Bound State in the Continuum
topic Quantum Physics
url https://arxiv.org/abs/2501.04954