Deterministic generation of Greenberger-Horne-Zeilinger entangled states of cat-state qubits in circuit QED

Yang Chui-Ping; Zheng Zhen-Fei

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Deterministic generation of Greenberger-Horne-Zeilinger entangled states of cat-state qubits in circuit QED

机译：Circue QED中的猫状态旗杆纠缠符号的格林伯格-Horne-ZEINER的确定性生成

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We present an efficient method to generate a Greenberger-Horne-Zeilinger (GHZ) entangled state of three cat-state qubits via circuit QED. The GHZ state is prepared with three microwave cavities coupled to a superconducting transmon qutrit. Because the qutrit remains in the ground state during the operation, decoherence caused by the energy relaxation and dephasing of the qutrit is greatly suppressed. The GHZ state is created deterministically, because no measurement is involved. Numerical simulations show that the high-fidelity generation of a three-cqubit GHZ state is feasible with the present circuit QED technology. This proposal can be easily extended to create a N-cqubit GHZ state (N = 3), with N microwave or optical cavities coupled to a natural or artificial three-level atom. (C) 2018 Optical Society of America

机译：我们介绍了一种有效的方法，可以通过电路QED生成三种猫状态Qubits的绿鹂霍尔 - ZEINER（GHz）纠缠状态。 GHz状态由三个微波腔加入到超导透射仪Qutrit。因为Qutrit在运行过程中仍然处于基状态，因此极大地抑制了由能量松弛和消除Qutrit引起的去阻抗。 GHz状态是确定的，因为没有涉及测量。数值模拟表明，三位轿车GHz状态的高保真产生与当前电路QED技术是可行的。可以轻松扩展该提议以创建N-CQubit GHz状态（N> = 3），其中N微波或光学腔耦合到天然或人造三级原子。（c）2018年光学学会

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《Optics Letters》 |2018年第20期|共4页
作者
Yang Chui-Ping; Zheng Zhen-Fei;
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Hangzhou Normal Univ Dept Phys Hangzhou 310036 Zhejiang Peoples R China;

Univ Sci &

Technol China CAS Key Lab Quantum Informat Hefei 230026 Anhui Peoples R China;

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正文语种 eng
中图分类计量学;光学;
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专利

1. Deterministic generation of Greenberger-Horne-Zeilinger entangled states of cat-state qubits in circuit QED [J] . Yang Chui-Ping, Zheng Zhen-Fei Optics Letters . 2018,第20期

机译：Circue QED中的猫状态旗杆纠缠符号的格林伯格-Horne-ZEINER的确定性生成
2. Deterministic Hadamard gate for microwave cat-state qubits in circuit QED [J] . Simon E. Nigg Physical Review, A. Atomic, molecular, and optical physics . 2014,第2aPta1期

机译：QED电路中微波猫态量子位的确定性Hadamard门
3. One-step implementation of a multi-target-qubit controlled phase gate with cat-state qubits in circuit QED [J] . Fan You-Ji, Zheng Zhen-Fei, Zhang Yu, Frontiers of physics . 2019,第2期

机译：电路QED中具有猫态量子位的多目标量子位受控相门的一步式实现
4. Deterministic Quantum-Controlled Teleportation of Arbitrary Multi-Qubit States Via Three-Qubit Entangled States [C] . Kaihang Zhou, Lei Shi, Jiahua Wei, International Conference on Mechatronics Engineering and Information Technology . 2019

机译：通过三个时序纠结状态确定Quentrary多Qubit状态的确定性量子控制传送
5. Progress towards deterministic generation of entangled W-states of neutral atoms using Rydberg blockade. [D] . Gill, Alexander T. 2014

机译：利用里德堡封锁向确定性产生中性原子纠缠W态的进展。
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

Deterministic generation of Greenberger-Horne-Zeilinger entangled states of cat-state qubits in circuit QED

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