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Quantum walks act in obviously different ways from their classical counterparts, but decoherence will lessen and close this gap between them. To understand this process, it is necessary to investigate the evolution of quantum walks under different decoherence situations. In this article, we study a non-Markovian decoherent quantum walk on a line. In a short time regime, the behavior of the walk deviates from both ideal quantum walks and classical random walks. The position variance as a measure of the quantum walk collapses and revives for a short time, and tends to have a linear relation with time. That is, the walker's behavior shows a diffusive spread over a long time limit, which is caused by non-Markovian dephasing affecting the quantum correlations between the quantum walker and his coin. We also study both quantum discord and measurement-induced disturbance as measures of the quantum correlations, and observe both collapse and revival in the short time regime, and the tendency to be zero in the long time limit. Therefore, quantum walks with non-Markovian decoherence tend to have diffusive spreading behavior over long time limits, while in the short time regime they oscillate between ballistic and diffusive spreading behavior, and the quantum correlation collapses and revives due to the memory effect. 相似文献
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介绍了多通道表面放电光泵浦源的设计,理论分析了触发电压幅值及上升时间、绝缘基板厚度等参数对所设计光泵浦源触发特性的影响。分析表明:在触发电压作用下,通道两电极处电场出现强烈畸变,而通道中间电场基本为零。采用高速相机拍摄泵浦源的放电图像以及电流线圈测量各通道的放电电流这两种方法实验研究了泵浦源的同步性及放电均匀性。当氮氩混合气体总气压为0.1 MPa (氮氩体积比为3∶7),充电电压20 kV,触发电压30 kV,前沿约10 ns时,成功实现了10通道均匀放电,抖动约20 ns。实验结果表明:在保证放电装置绝缘良好的情况下,若充电电压和触发电压越高,触发电压上升时间越短,触发电极至通道的有效距离越短,则多通道放电的抖动就越小,放电均匀性越好。 相似文献
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We investigated discrete-time quantum walks with an arbitary unitary coin.Here we discover that the average position x=max(x) sin(α+γ),while the initial state is 1/2~(1/2)(|0L+i|0R).We verify the result,and obtain some symmetry properties of quantum walks with a U(2) coin with |0L and |0R as the initial state. 相似文献
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根据高功率准分子激光主振荡器功率放大系统像传递结构特点,利用LABVIEW与MATLAB相结合设计了靶面光斑重心的稳定性模拟仿真及分析软件。对光学元件稳定性测量结果和光学元件误差分配结果进行模拟仿真和验证,经过多次再分配实现了系统误差分配的最优化。数据表明,现有实验室条件下,靶面光斑重心稳定性尚不能满足要求;在保持低稳定性指标要求光学元件一定裕量前提下,高稳定性要求光学元件的最优化分配指标为1.7 μrad;实验室现有光学元件在工作条件下能够满足该优化分配指标,在一定程度上减小了对光学元件的结构要求。 相似文献