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Scheme for Robust Storage of Multi-particle Entanglement with a Cavity QED System
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作者 CHEN Chang-Yong LI Shao-Hua GAO Ke-Lin 《Communications in Theoretical Physics》 SCIE CAS CSCD 2006年第4X期617-622,共6页
We propose a scheme for robustly storing multi-atom entangled states involving Bell states, three-particle W-state, n-particle W-like-states, generalized multi-particle W-states, n-particle GHZ-states, and partially e... We propose a scheme for robustly storing multi-atom entangled states involving Bell states, three-particle W-state, n-particle W-like-states, generalized multi-particle W-states, n-particle GHZ-states, and partially entangled states in cavity QED. Our scheme can preserve the internal structure of the entangled states above, with only generation of a global phase corresponding to each of entangled states during the storage of them. One single-mode cavity and n identical two-level atoms are required. Our scheme may be realized in the present technology. The idea may be also utilized to store multi-trapped-ion entangled states in linear ion trap. 展开更多
关键词 Bell states W-states multi-particle entanglement
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Remote Preparation of Multipartite Equatorial Entangled States in High Dimensions with Three Parties
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作者 HOU Kui WANG Jing SHI Shou-Hua 《Communications in Theoretical Physics》 SCIE CAS CSCD 2009年第4期641-647,共7页
A scheme for probabilistic remotely preparing N-particle d-dimensional equatorial entangled states via entangled swapping with three parties is presented. The quantum channel is composed of N - 1 pairs of bipartite d-... A scheme for probabilistic remotely preparing N-particle d-dimensional equatorial entangled states via entangled swapping with three parties is presented. The quantum channel is composed of N - 1 pairs of bipartite d-dimensional non-maximally entangled states and a tripartite d-dimension non-maximally entangled state. It is shown that the sender can help either of the two receivers to remotely prepare the original state, and the N-particle projective measurement and the generalized Hadamard transformation are needed in this scheme. The total success probability and classical communication cost are calculated. 展开更多
关键词 remoter state preparation d-dimensional multiparticle equatorial entangled states projective measurement classical communication cost
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