This review covers the developments in rare earth elements analysis over the period from 2003 to 2005. Some novel separation and determination methods and their applications in rare earth elements analysis were presen...This review covers the developments in rare earth elements analysis over the period from 2003 to 2005. Some novel separation and determination methods and their applications in rare earth elements analysis were presented and discussed in detail. Some new materials, such as ionic liquids, nanometer materials and ion-imprinted polymers, and some new technologies, such as cloud point extraction, membrane extraction and capillary electrophoresis were successful used in rare earth elements analysis. The determination methods of NAA, ICP-OES and ICP-MS were also discussed in detail.展开更多
An algorithm is developed to calculate the entanglement of formation for bipartite quantum states to determine numerically the sufficient condition of separability. The algorithm is applied to two 3 × 3 positive ...An algorithm is developed to calculate the entanglement of formation for bipartite quantum states to determine numerically the sufficient condition of separability. The algorithm is applied to two 3 × 3 positive partial transpose states mixed with white noise. For these two noisy states, our numerical sufficient conditions of separability are not far from the best necessary conditions of separability.展开更多
文摘This review covers the developments in rare earth elements analysis over the period from 2003 to 2005. Some novel separation and determination methods and their applications in rare earth elements analysis were presented and discussed in detail. Some new materials, such as ionic liquids, nanometer materials and ion-imprinted polymers, and some new technologies, such as cloud point extraction, membrane extraction and capillary electrophoresis were successful used in rare earth elements analysis. The determination methods of NAA, ICP-OES and ICP-MS were also discussed in detail.
基金Supported by the National Natural Science Foundation of China under Grant Nos 11375152 and 60972071the Key Laboratory of New Network Standards and Technologies of Zhejiang Province under Grant No 2013E10012
文摘An algorithm is developed to calculate the entanglement of formation for bipartite quantum states to determine numerically the sufficient condition of separability. The algorithm is applied to two 3 × 3 positive partial transpose states mixed with white noise. For these two noisy states, our numerical sufficient conditions of separability are not far from the best necessary conditions of separability.
