Four-qubit entanglement has been investigated using a recent proposed entanglement measure, multiple entropy measures (MEMS). We have performed optimization for the nine different families of states of four-qubit sy...Four-qubit entanglement has been investigated using a recent proposed entanglement measure, multiple entropy measures (MEMS). We have performed optimization for the nine different families of states of four-qubit system. Some extremal entangled states have been found.展开更多
500 k V与220 k V交流同塔四回输电线路与单一电压等级超高压线路的空间分布具有较大区别,线路带电作业电场环境更为复杂。笔者采用有限元法仿真计算同塔四回输电线路典型带电作业位置的电场分布特点,通过建立人体仿真模型,计算分析等...500 k V与220 k V交流同塔四回输电线路与单一电压等级超高压线路的空间分布具有较大区别,线路带电作业电场环境更为复杂。笔者采用有限元法仿真计算同塔四回输电线路典型带电作业位置的电场分布特点,通过建立人体仿真模型,计算分析等电位和地电位典型作业工况下人体不同部位的电场强度,进而确定带电作业人员安全防护措施。结果表明,等电位作业时需穿屏蔽效率为40 d B的防护服,地电位作业人员穿戴常规防护服可满足作业要求。展开更多
基金National Natural Science Foundation of China under Grant Nos.10325521 and 60433050the 973 Program under Grant No.2006CB921106
文摘Four-qubit entanglement has been investigated using a recent proposed entanglement measure, multiple entropy measures (MEMS). We have performed optimization for the nine different families of states of four-qubit system. Some extremal entangled states have been found.
文摘500 k V与220 k V交流同塔四回输电线路与单一电压等级超高压线路的空间分布具有较大区别,线路带电作业电场环境更为复杂。笔者采用有限元法仿真计算同塔四回输电线路典型带电作业位置的电场分布特点,通过建立人体仿真模型,计算分析等电位和地电位典型作业工况下人体不同部位的电场强度,进而确定带电作业人员安全防护措施。结果表明,等电位作业时需穿屏蔽效率为40 d B的防护服,地电位作业人员穿戴常规防护服可满足作业要求。
