J. P. Wang, L. P. Yang, Y. Q. Ji, Y. L. Liu, L. Dong, X. M. Xiu
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引用次数: 0
摘要
本文提出了一种基于量子泽诺动力学的快速生成三粒子格林伯格-霍恩-蔡林格(Greenberger-Horne-Zeilinger,GHZ)态的高效方案,并设计了雷德贝格超原子的演化算子。在本方案中,量子信息被编码在超原子的集合态中,超原子包含 n 个独立的四电平倒 Y 型雷德堡原子,其 Rabi 频率可拟合为高斯函数,这有利于实验的可行性。此外,还考虑了原子自发辐射、空腔衰变和光纤泄漏等各种退相干因素的影响。数值模拟结果表明,本方案对退相干和操作不完善具有鲁棒性。最后,我们将该方案推广到 N 粒子 GHZ 状态的产生。
Fast generation of GHZ state by designing the evolution operators with Rydberg superatom
In this paper, we propose an efficient scheme to fast generate three-particle Greenberger–Horne–Zeilinger (GHZ) state based on quantum Zeno dynamics and designing the evolution operators with Rydberg superatom. In the present scheme, the quantum information is encoded in the collective states of superatom which contains n individual four-level inverted Y-type Rydberg atoms, and the Rabi frequency can be fitted to a Gaussian function, which favors experimental feasibility. In addition, the influence of various decoherence factors such as atomic spontaneous emission, cavity decay and fiber leakage is also considered. The numerical simulation result shows that the present scheme is robust against decoherence and operational imperfection. At last, we generalize this scheme to the generation of N-particle GHZ state.
期刊介绍:
Quantum Information Processing is a high-impact, international journal publishing cutting-edge experimental and theoretical research in all areas of Quantum Information Science. Topics of interest include quantum cryptography and communications, entanglement and discord, quantum algorithms, quantum error correction and fault tolerance, quantum computer science, quantum imaging and sensing, and experimental platforms for quantum information. Quantum Information Processing supports and inspires research by providing a comprehensive peer review process, and broadcasting high quality results in a range of formats. These include original papers, letters, broadly focused perspectives, comprehensive review articles, book reviews, and special topical issues. The journal is particularly interested in papers detailing and demonstrating quantum information protocols for cryptography, communications, computation, and sensing.
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