Remote Three-Party Quantum State Sharing Based on Three-Atom Entangled States Assisted by Cavity QED and Flying Qubits

Wang TJ; Deng FG

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Remote Three-Party Quantum State Sharing Based on Three-Atom Entangled States Assisted by Cavity QED and Flying Qubits

机译：基于腔QED和飞行量子位的三原子纠缠态的远程三方量子态共享

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We present a remote three-party quantum state sharing (QSTS) scheme with three-atom Greenberger-Horne-Zeilinger (GHZ) states assisted by cavity QED and flying qubits. It exploits some photons to act as the flying qubits for setting up the quantum channel securely with three-atom systems in a GHZ state, which maybe make this remote QSTS scheme more practical than some other schemes based on atom systems only or ion-trap systems as photons interact with their environments weakly. The coherence of the stationary atom qubits in cavities provides the convenience for the parties in QSTS to check eavesdropping, different from entangled photon systems. Moreover, the present scheme works in a collective-noise condition and it may be more practical than others in applications in future.

机译：我们提出了一个具有腔态QED和飞行量子位的三原子Greenberger-Horne-Zeilinger（GHZ）态的远程三方量子态共享（QSTS）方案。它利用某些光子充当飞行量子位，以在处于GHZ状态的三原子系统中安全地建立量子通道，这可能使该远程QSTS方案比仅基于原子系统或离子阱系统的某些其他方案更实用。因为光子与环境的相互作用微弱。与纠缠的光子系统不同，腔中固定原子量子位的相干性为QSTS中的各方检查窃听提供了便利。而且，本方案在集体噪声条件下工作，并且在将来的应用中可能比其他方案更实用。

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《Communications in Theoretical Physics》 |2011年第5期|共9页
作者
Wang TJ; Deng FG;
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正文语种 eng
中图分类理论物理学;
关键词
quantum state sharing; three-atom GHZ state; flying qubits; collective noise;

机译：量子态共享三原子GHZ态飞行量子比特集体噪声;

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专利

1. Remote Three-Party Quantum State Sharing Based on Three-Atom Entangled States Assisted by Cavity QED and Flying Qubits [J] . Wang TJ, Deng FG Communications in Theoretical Physics . 2011,第5期

机译：基于腔QED和飞行量子位的三原子纠缠态的远程三方量子态共享
2. Remote Three-Party Quantum State Sharing Based on Three-Atom Entangled States Assisted by Cavity QED and Flying Qubits* [J] . WANG Tie-Jun, DENG Fu-Guo 理论物理通讯（英文版） . 2011,第005期

机译：基于腔QED和飞行量子位的三原子纠缠态的远程三方量子态共享*
3. Remote Three-Party Quantum State Sharing Based on Three-Atom Entangled States Assisted by Cavity QED and Flying Qubits [J] . WANG Tie-Jun, DENG Fu-Guo 理论物理通讯：英文版 . 2011,第005期

机译：腔QED和飞行量子位辅助的基于三原子纠缠态的远程三方量子态共享
4. Three-atom Entanglement Sudden Death and Birth in Cavity QED with The Influence of The Stark Shift [C] . KunHua Wu, QingFeng Huang, XiaoQing Zhang International Conference on Nanotechnology and Precision Engineering . 2013

机译：三个原子纠缠突然死亡和腔内诞生，QED QED的影响力
5. Photonic crystal defect cavities for quantum dot cavity-QED. [D] . Reese, Charles. 2006

机译：量子点腔QED的光子晶体缺陷腔。
6. Multi-qubit Quantum Rabi Model and Multi-partite Entangled States in a Circuit QED System [O] . Jialun Li, Gangcheng Wang, Ruoqi Xiao, -1

机译：电路QED系统中的多量子位量子拉比模型和多粒子纠缠态
7. Preparation of n-qubit Greenberger-Horne-Zeilinger entangled states in cavity QED: An approach with tolerance to nonidentical qubit-cavity coupling constants [O] . Yang, Chui-Ping 2011

机译：n-qubit Greenberger-Horne-Zeilinger纠缠态的制备腔QED：一种容忍非同一量子腔耦合的方法常量
8. Quantum Dot-Photonic Crystal Cavity QED Based Quantum Information Processing. [R] . Vuckovic, J. 2012

机译：基于量子点光子晶体腔QED的量子信息处理。

Remote Three-Party Quantum State Sharing Based on Three-Atom Entangled States Assisted by Cavity QED and Flying Qubits

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