2020
DOI: 10.1088/1674-1056/ab84de
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Quantum teleportation of particles in an environment*

Abstract: We discuss the teleportation of particles in an environment of an N-body system. In this case, we can change a many-body system into an arbitrary shape in space by teleporting some or all the constituent particles, and thus we call the quantum teleportation under this circumstance as quantum tele-transformation (QTT). The particular feature of QTT is that the wave function of the internal degrees of freedom remains the same, while the spatial wave function experiences a drastic change. The notion of QTT provid… Show more

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Cited by 30 publications
(19 citation statements)
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“…Entanglement is one of the significant non-local features of quantum systems that distinguish them from their classical counterparts [10]. It has received great attention in recent years as a key resource for quantum information processing and communication [11], quantum cryptography [12], dense coding [13], teleportation [14], and the exponential acceleration of certain computing tasks [15,16,17]. Furthermore, maximally entangled states are typically used for complete and efficient quantum information execution [18,19].…”
Section: Introductionmentioning
confidence: 99%
“…Entanglement is one of the significant non-local features of quantum systems that distinguish them from their classical counterparts [10]. It has received great attention in recent years as a key resource for quantum information processing and communication [11], quantum cryptography [12], dense coding [13], teleportation [14], and the exponential acceleration of certain computing tasks [15,16,17]. Furthermore, maximally entangled states are typically used for complete and efficient quantum information execution [18,19].…”
Section: Introductionmentioning
confidence: 99%
“…Long et al introduced a way for overcoming synthesizer phase noise in quantum sensing 85 . Yang et al proposed an extended form of quantum teleportation, quantum tele‐transformation, which treats the single‐particle teleportation and quantum entanglement swapping in the same formalism 86 . The performance of quantum channel is investigated by Sun 87 and Chai 88 via backlog, delay and throughput.…”
Section: Discussionmentioning
confidence: 99%
“…Here only two EPR states |ψ − and |ψ + are used. The reason for using these two Bell-basis states is that they can be measured with the aid of linear optics [87], [88], which is more easily implemented than a complete four-Bell-state measurement, since the latter requires nonlinear optics [89]. The procedure of two-step DQKD is depicted in Fig.…”
Section: A Single-photon-memory Qsdc Protocol Based On Epr Pairsmentioning
confidence: 99%