Email this article Entanglement of Multipartite Fermionic Coherent States for Pseudo-Hermitian Hamiltonians
- Authors: Mirzaei S.1, Najarbashi G.2, Fasihi M.A.2, Mirmasoudi F.2
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Affiliations:
- Department of Physics, Faculty of Sciences
- Department of Physics
- Issue: Vol 196, No 1 (2018)
- Pages: 1028-1042
- Section: Article
- URL: https://journals.rcsi.science/0040-5779/article/view/171848
- DOI: https://doi.org/10.1134/S0040577918070097
- ID: 171848
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Abstract
We study the entanglement of multiqubit fermionic pseudo-Hermitian coherent states (FPHCSs) described by anticommutative Grassmann numbers. We introduce pseudo-Hermitian versions of well-known maximally entangled pure states, such as Bell, GHZ, Werner, and biseparable states, by integrating over the tensor products of FPHCSs with a suitable choice of Grassmannian weight functions. As an illustration, we apply the proposed method to the tensor product of two- and three-qubit pseudo-Hermitian systems. For a quantitative characteristic of entanglement of such states, we use a measure of entanglement determined by the corresponding concurrence function and average entropy.
About the authors
S. Mirzaei
Department of Physics, Faculty of Sciences
Author for correspondence.
Email: s.mirzaei@sut.ac.ir
Iran, Islamic Republic of, Tabriz
G. Najarbashi
Department of Physics
Email: s.mirzaei@sut.ac.ir
Iran, Islamic Republic of, Ardabil
M. A. Fasihi
Department of Physics
Email: s.mirzaei@sut.ac.ir
Iran, Islamic Republic of, Tabriz
F. Mirmasoudi
Department of Physics
Email: s.mirzaei@sut.ac.ir
Iran, Islamic Republic of, Ardabil
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