Fate of Entanglement for Initial Separable States in Quantum Neural Network

Authors : Ufuk KORKMAZ

Pages : 178-181

Doi:10.17694/bajece.541444

View : 14 | Download : 5

Publication Date : 2019-04-30

Article Type : Research Paper

Abstract :This study is related to the fate of entanglement for initial separable states in a quantum neural network insert ignore into journalissuearticles values(QNN); model, which is in contact with the data environments locally. The duration of entanglement in quantum systems becomes extremely important when we consider it as a valuable resource. Thus, the effects of various initial states on the occurrence or decay of entanglement are investigated in the presence of information reservoirs. Especially in this study, central spin model has been examined as a quantum version of neural networks by taking inspiration from the biological models. Our model consists of a central spin system with two nodes to which the nodes are coupled to independent spin baths. Numerical results clearly show that different initial states have a profound effect on the fate of the entanglement. It also shows that the entanglement lifetime can be adjusted by regulating the reservoir states. The results can be used in realistic communication network situations to improve the performance of entanglement formation or distribution.
Keywords : Entanglement, Information reservoir, Central spin model, Quantum neural network