A New Tripartite Coherent-Entangled State Generated by An Asymmetric   Beam-Splitter and Its Applications

Ma Xu; Zhang Shuang-Xi; Dong Chuan-Fei

arXiv:0909.5217·quant-ph·September 30, 2009

A New Tripartite Coherent-Entangled State Generated by An Asymmetric Beam-Splitter and Its Applications

Ma Xu, Zhang Shuang-Xi, Dong Chuan-Fei

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TL;DR

This paper introduces a novel tripartite coherent-entangled state generated via an asymmetric beam-splitter, exploring its properties, mathematical completeness, and potential applications in quantum optics.

Contribution

It proposes a new tripartite coherent-entangled state, analyzes its properties, and presents a practical generation protocol and applications in quantum optics.

Findings

01

The tripartite CES exhibits both coherence and entanglement.

02

It forms a complete and orthogonal basis for tripartite states.

03

A feasible protocol for generating the state using an asymmetric beam-splitter is proposed.

Abstract

A new kind of tripartite coherent-entangled state (CES) $∣ β, γ, x ⟩_{μν τ}$ is proposed, which exhibits the properties of both coherence and entanglement. We investigate its completeness and orthogonality, and find it can make up a representation of tripartite CES. A protocol for generating the tripartite CES is proposed using asymmetric beam splitter. Applications of the tripartite CES in quantum optics are also presented.

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Taxonomy

TopicsQuantum Information and Cryptography · Orbital Angular Momentum in Optics · Mechanical and Optical Resonators