Vertex pancyclicity in almost regular multipartite tournaments 几乎正则多部竞赛图的点泛圈性
2.
The two theorems above give a complete solution of the problem of complementary cycles in tournaments . however , for multipartite tournaments which are not tournaments , the problem of complementary cycles is still open 以上两个定理已经完全解决了竞赛图的共轭圈问题,而多部竞赛图的共轭圈问题尚未解决。
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This dissertation derives the transformation rule between schmidt decomposable multipartite entangled pure states ( schmidt state ) under locc , which is the same as the rule for the bipartite entangled pure - state transformation under locc 得出了schmidt可分解的多体纠缠纯态(简称为schmidt态)的转换规律,发现这种转换规律与两体纠缠纯态的转换规律相同。
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In this paper , we extend the theorem of song to multipartite tournaments and prove that every 2 - connected and 2 - equilibrium multipartite tournament contains a pair of componentwise complementary cycles , unless it is isomorphic to t71 ( see figure in ? ) 本文将竞赛图的结果推广到均匀多部竞赛图上,并证明了2 -强连通2 -均匀多部竞赛图包含一对分量共轭圈,除非它同构于竞赛图t _ 7 ~ 1 (参看图1 ) 。
5.
During my phd study , our group completed the experimental and theoretical investigations on cv quantum dense coding , generation of multipartite entangled state of optical modes and controlled dense coding quantum communication . following five parts will be presented in this thesis : 1 我们利用连续光场的正交分量量子纠缠特性,进行了连续变量量子密集编码,多组份纠缠态光场产生,受控密集编码量子通讯等实验与理论研究,主要内容如下: 1
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Quantum entanglement shared by more than two particles or parties is the essential base for developing quantum communication networks . using the multipartite entanglement the novel telecloning , controlled dense coding , sharing secure quantum states and reduction of communication complexity can be realized 为了研究量子网络,必需研究两个以上子系统之间的纠缠,即多粒子或多组份纠缠,利用它可以实现远程克隆( telecloning ) 、可控密集编码、共享秘密量子态以及减小通讯复杂性( reductionofthecommunicationcomplexity )等。
