Remote preparation of four-qubit states via two-qubit maximally entangled states

This work reviews and extends recent results concerning the distribution of entanglement, as well as nonlocality (in terms of inequality violations) in tripartite qubit systems. With recourse to a Monte Carlo generation of pure and mixed states of three-qubits, we explore several features related to the distribution of entanglement (expressed in the form of different measures of multiqubit entanglement based upon bipartitions). Also, special interest is paid to maximally entangled states (such as the GHZ for three-qubits) and W states. This study also sheds some light on the interesting relation existing between some entanglement measures and perfect state discrimination in LOCC measurements relevant to cryptographic protocols. We round off the results by studying the distribution of entanglement between Alice and Bob in a modified teleportation protocol toy model over three-qubit states.

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Generalized Weyl-Heisenberg Algebra, Qudit Systems and Entanglement Measure of Symmetric States via Spin Coherent States. Part II: The Perma-Concurrence Parameter

Symmetry ◽

10.3390/sym11070875 ◽

2019 ◽

Vol 11 (7) ◽

pp. 875

Author(s):

Mohammed Daoud ◽

Maurice R. Kibler

Keyword(s):

Heisenberg Algebra ◽

Entangled States ◽

Entanglement Measure ◽

Bloch Sphere ◽

Maximally Entangled States ◽

Qubit States ◽

Range Of Variation ◽

Symmetric States ◽

Unit Vectors ◽

Spin Coherent States

This paper deals with separable and entangled qudits | ψ d ⟩ (quantum states in dimension d) constructed from Dicke states made of N = d - 1 qubits. Such qudits present the property to be totally symmetric under the interchange of the N qubits. We discuss the notion of perma-concurrence P d for the qudit | ψ d ⟩ , introduced by the authors (Entropy 2018, 20, 292), as a parameter for characterizing the entanglement degree of | ψ d ⟩ . For d = 3 , the perma-concurrence P 3 constitutes an alternative to the concurrence C for symmetric two-qubit states. We give several expressions of P d (in terms of matrix permanent and in terms of unit vectors of R 3 pointing on the Bloch sphere) and precise the range of variation of P d (going from separable to maximally entangled states). Numerous examples are presented for P d . Special attention is devoted to states of W type and to maximally entangled states of Bell and Greenberger–Horne–Zeilinger type.

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Coping with noise in joint remote preparation of a general two-qubit state by using nonmaximally entangled quantum channel

Communications in Physics ◽

10.15625/0868-3166/28/1/11722 ◽

2018 ◽

Vol 28 (1) ◽

pp. 1 ◽

Cited By ~ 4

Author(s):

Dat Thanh Le ◽

Hop Van Nguyen ◽

An Ba Nguyen

Keyword(s):

Phase Diagrams ◽

Quantum Channel ◽

Qubit State ◽

Entangled States ◽

Joint Remote State Preparation ◽

Quantum Domain ◽

Quantum Protocols ◽

Remote Preparation ◽

Maximally Entangled States ◽

Free Parameters

Noise is unavoidable in practice and its presence makes quantum protocols imperfect. In this paper we consider a way to cope with typical types of noise in joint remote preparation of an arbitrary 2-qubit state. The idea is to use nonmaximally (in stead of maximally) entangled states as the initial quantum channel. Because noise changes the initial quantum channel we can beforehand tailor it to be nonmaximally entangled by introducing free parameters which, depending on given types of noise, can be controlled so that due to the affect of noise the initial quantum channel becomes closest to the maximally entangled one, thus optimizing the performance of the joint remote state preparation protocol. The dependence of the optimal averaged fidelities on the strength of various types of noise is represented by phase diagrams that clearly separate the quantum domain from the classical one.

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Deterministic joint remote preparation of arbitrary multi-qubit states via three-qubit entangled states

Quantum Information Processing ◽

10.1007/s11128-019-2350-2 ◽

2019 ◽

Vol 18 (8) ◽

Cited By ~ 1

Author(s):

Jiahua Wei ◽

Lei Shi ◽

Shanghong Zhao ◽

Kaihang Zhou ◽

Longqiang Yu ◽

...

Keyword(s):

Entangled States ◽

Remote Preparation ◽

Qubit States ◽

Deterministic Joint Remote Preparation

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Generation of Maximally Entangled States by a Kerr-like Nonlinear Coupler Interactive with External Fields

Communications in Physics ◽

10.15625/0868-3166/29/3/13742 ◽

2019 ◽

Vol 29 (3) ◽

Author(s):

Doan Quoc Khoa ◽

Luong Thi Tu Oanh ◽

Chu Van Lanh ◽

Do Hong Son

Keyword(s):

Initial Conditions ◽

Simulation Method ◽

Entangled States ◽

Quantum State Engineering ◽

Nonlinear Properties ◽

Nonlinear Quantum ◽

Maximally Entangled States ◽

Photon States ◽

Nonlinear Coupler ◽

Qubit States

We study a model with two nonlinear oscillators (Kerr-like nonlinear coupler) pumped by two external coherent fields as a nonlinear quantum scissor (NQS). Using the numerical simulation method introduced before for quantum state engineering in NQS of such type, we obtain the wave function describing the evolution of the system as a combination of n-photon states. Considered NQS generates a truncation of optical states that leads to achieve two-qubit states due to the nonlinear properties of oscillators and their interaction. In particular, evolution of the system generates maximally entangled states as so-called Bell-like states. We will show that a proper choice of initial conditions for such evolution implies the increase of efficiency of entanglement creation process. We consider our model for both damping and without damping cases.

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