@article{scholars5347, pages = {379--384}, number = {5}, title = {Quantum network via partial entangled state}, volume = {9}, doi = {10.12720/jcm.9.5.379-384}, journal = {Journal of Communications}, year = {2014}, publisher = {Academy Publisher}, note = {cited By 17}, abstract = {In this article we designed a quantum network consists of four nodes using pairs of partial entangled state (Werner-state). The nodes of this network are connected via Dzyaloshiniskii-Moriya (DM) interaction. The entanglement is quantified between all different nodes using Wootters concurrence. It is shown that there is a maximum entangled state generated between two nodes which are connected indirectly. The degree of entanglement depends on the direction of switching the interaction. {\^A}{\copyright} 2014 Engineering and Technology Publishing.}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-84901603396&doi=10.12720\%2fjcm.9.5.379-384&partnerID=40&md5=65534d56d40c316d4dd93e73bf04613b}, issn = {17962021}, keywords = {Communication; Electrical engineering, Degree of entanglement; Dzyaloshiniskii-Moriya (DM) interaction; Entangled state; Entanglement; Quantum network, Quantum entanglement}, author = {Abdel-Aty, A.-H. and Zakaria, N. and Cheong, L. Y. and Metwallay, N.} }