Improving quantum state transfer efficiency and entanglement distribution in binary tree spin network through incomplete collapsing measurements

Behzadi Naghi; Ahansaz Bahram

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Improving quantum state transfer efficiency and entanglement distribution in binary tree spin network through incomplete collapsing measurements

机译：通过不完全折叠测量提高二叉树旋转网络中量子传递效率和缠结分布

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摘要

We propose a mechanism for quantum state transfer (QST) over a binary tree spin network on the basis of incomplete collapsing measurements. To this aim, we perform initially a weak measurement (WM) on the central qubit of the binary tree network where the state of our concern has been prepared on that qubit. After the time evolution of the whole system, a quantum measurement reversal (QMR) is performed on a chosen target qubit. By taking optimal value for the strength of QMR, it is shown that the QST quality from the sending qubit to any typical target qubit on the binary tree is considerably improved in terms of the WM strength. Also, we show that how high-quality entanglement distribution over the binary tree network is achievable by using this approach.

机译：我们在不完全折叠测量的基础上提出了一种对二元树旋转网络上的量子状态转移（QST）的机制。为此目的，我们在二叉树网络的中央Qubit上执行弱测量（WM），在那里我们对该Qubit准备了我们关注的状态。在整个系统的时间演变之后，对所选择的目标Qubit执行量子测量反转（QMR）。通过对QMR强度的最佳值来说，表明，在WM强度方面，从发送Qubit到二进制树上的任何典型目标Qubit的QST质量显着改善。此外，我们表明，通过使用这种方法可以实现二进制树网络上的高质量纠缠分布。

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来源
《Quantum information processing》 |2018年第4期|共15页
作者
Behzadi Naghi; Ahansaz Bahram;
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作者单位

Univ Tabriz Res Inst Fundamental Sci Tabriz Iran;

Azarbaijan Shahid Madani Univ Dept Phys Tabriz Iran;

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原文格式 PDF
正文语种 eng
中图分类自动信息理论;
关键词
Quantum state transfer; Entanglement distribution; Binary tree network; Incomplete collapsing measurement;

机译：量子状态转移;纠缠分布;二叉树网络;不完全折叠测量;

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专利

1. Improving quantum state transfer efficiency and entanglement distribution in binary tree spin network through incomplete collapsing measurements [J] . Behzadi Naghi, Ahansaz Bahram Quantum information processing . 2018,第4期

机译：通过不完全折叠测量提高二叉树旋转网络中量子传递效率和缠结分布
2. Improved quantum state transfer via quantum partially collapsing measurements [J] . Zhong-Xiao Man, Nguyen Ba An, Yun-Jie Xia Annals of Physics . 2014,第Null期

机译：通过量子部分塌缩测量来改善量子态转移
3. Entanglement transfer and periodic sudden death phenomenon in two parallel 1D spin chains of quantum spin network [J] . Wang ZM, Shao B, Zou J Chinese physics letters . 2007,第4期

机译：量子自旋网络的两个平行一维自旋链中的纠缠转移和周期性突然死亡现象
4. Quantum entanglement in spin chains with the XY Hamiltonian at the quantum state transfer [C] . I. D. Lazarev, E. I. Kuznetsova International Conference on Micro- and Nano-Electronics . 2019

机译：用XY Hamiltonian在量子州转移的旋转链中的量子纠缠
5. Uses of quantum measurements: Conceptual/theoretical frameworks for measurements and collapse -free posterior value ascriptions [D] . Lee, Chunghyoung 2006

机译：量子测量的用途：用于测量和无塌陷的后验值归属的概念/理论框架
6. Entanglement 25 Years after Quantum Teleportation: Testing Joint Measurements in Quantum Networks [O] . Nicolas Gisin 2019

机译：量子传送后25年纠缠：在量子网络中测试关节测量
7. Quantum State Transfer and Entanglement Distribution among Distant Nodes in a Quantum Network [O] . Cirac J. I., Zoller P., Kimble H. J., 1997

机译：量子网络中远距离节点之间的量子态转移和纠缠分布
8. Quantum Entanglement of Quantum Dot Spin Using Flying Qubits. [R] . Steel, D. G. 2015

机译：用飞行量子点量子点旋转的量子纠缠。

Improving quantum state transfer efficiency and entanglement distribution in binary tree spin network through incomplete collapsing measurements

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