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Auteurs principaux: Jiang, Dengkui, Zhai, Cuilu, Song, Yaju, Peng, Zhaohui, Yuan, Jibing, Tang, Shiqing, Lu, Wangjun
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2401.07574
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author Jiang, Dengkui
Zhai, Cuilu
Song, Yaju
Peng, Zhaohui
Yuan, Jibing
Tang, Shiqing
Lu, Wangjun
author_facet Jiang, Dengkui
Zhai, Cuilu
Song, Yaju
Peng, Zhaohui
Yuan, Jibing
Tang, Shiqing
Lu, Wangjun
contents In this paper, we investigate how the evolution of the states of two qubits initially in a direct product state can be controlled by the optical field in a Tavis-Cummings (TC) model. For the two qubits initially in the direct product state, we find that their matrix elements at any moment can be modulated by the coefficients of the optical field initial states in the number state space. We propose a method for preparing an \textit{X}-type state of two qubits. Subsequently, for descriptive convenience, we divide the Bell states of the two qubits into two kinds in the paper. When both qubits are initially in the ground state, we find that the two qubits can be controlled to produce the first type of Bell state by the superposition state optical field that is initially in the next-nearest-neighbor number state and that the production of any of the first type of Bell states can be controlled by controlling the phase between the two next-nearest-neighbor number states. When one of the two qubits is in the ground state, and the other is in the excited state, we can control the two qubits to produce the second type of Bell state by the single-photon number state optical field. Finally, we study the generation of Werner states by controlling two qubits initially, both in the ground state, using an optical field.
format Preprint
id arxiv_https___arxiv_org_abs_2401_07574
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Generating Bell states and Werner states of two qubits via optical field
Jiang, Dengkui
Zhai, Cuilu
Song, Yaju
Peng, Zhaohui
Yuan, Jibing
Tang, Shiqing
Lu, Wangjun
Quantum Physics
In this paper, we investigate how the evolution of the states of two qubits initially in a direct product state can be controlled by the optical field in a Tavis-Cummings (TC) model. For the two qubits initially in the direct product state, we find that their matrix elements at any moment can be modulated by the coefficients of the optical field initial states in the number state space. We propose a method for preparing an \textit{X}-type state of two qubits. Subsequently, for descriptive convenience, we divide the Bell states of the two qubits into two kinds in the paper. When both qubits are initially in the ground state, we find that the two qubits can be controlled to produce the first type of Bell state by the superposition state optical field that is initially in the next-nearest-neighbor number state and that the production of any of the first type of Bell states can be controlled by controlling the phase between the two next-nearest-neighbor number states. When one of the two qubits is in the ground state, and the other is in the excited state, we can control the two qubits to produce the second type of Bell state by the single-photon number state optical field. Finally, we study the generation of Werner states by controlling two qubits initially, both in the ground state, using an optical field.
title Generating Bell states and Werner states of two qubits via optical field
topic Quantum Physics
url https://arxiv.org/abs/2401.07574