Quantum teleportation based on the elegant joint measurement

IF 2.3 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Dong Ding , Ming-Xing Yu , Ying-Qiu He , Hao-Sen Ji , Ting Gao , Feng-Li Yan
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引用次数: 0

Abstract

As a generalization of the well-known Bell state measurement (BSM), the elegant joint measurement (EJM) is a kind of novel two-qubit joint measurement, parameterized by a subtle phase factor θ[0,π/2]. We investigate here the quantum teleportation based on the EJM that conceptually goes beyond BSM. It is a probabilistic teleportation caused by nonunitary quantum evolution except for the special case of the BSM with θ=π/2. We show in detail the feasible quantum circuits to realize the present scenario, where a few unitary operations and a nonunitary quantum gate are being utilized. This work suggests that it is feasible to extend the customary (BSM-based) teleportation scenarios to the EJM-based ones, and different from the BSM being single input it may provide a continuously variable input setting or even multiple measurement settings for the sender of the quantum state.
基于优雅联合测量的量子传送
作为对著名的贝尔态测量(BSM)的概括,优雅联合测量(EJM)是一种新颖的双量子比特联合测量,其参数是一个微妙的相位因子θ∈[0,π/2]。我们在此研究基于 EJM 的量子远距传物,它在概念上超越了 BSM。除了θ=π/2 的 BSM 特殊情况外,这是一种由非单元量子演化引起的概率远距传态。我们详细展示了实现当前方案的可行量子电路,其中利用了一些单元运算和非单元量子门。这项工作表明,将传统的(基于 BSM 的)远距传物方案扩展到基于 EJM 的方案是可行的,而且与 BSM 的单一输入不同,它可以为量子态的发送者提供连续可变的输入设置或甚至多重测量设置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Physics Letters A
Physics Letters A 物理-物理:综合
CiteScore
5.10
自引率
3.80%
发文量
493
审稿时长
30 days
期刊介绍: Physics Letters A offers an exciting publication outlet for novel and frontier physics. It encourages the submission of new research on: condensed matter physics, theoretical physics, nonlinear science, statistical physics, mathematical and computational physics, general and cross-disciplinary physics (including foundations), atomic, molecular and cluster physics, plasma and fluid physics, optical physics, biological physics and nanoscience. No articles on High Energy and Nuclear Physics are published in Physics Letters A. The journal''s high standard and wide dissemination ensures a broad readership amongst the physics community. Rapid publication times and flexible length restrictions give Physics Letters A the edge over other journals in the field.
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