Entanglement fidelity for electron–electron interaction in strongly coupled semiclassical plasma and under external fields

B.J, Falaye and K.J., Oyewumi and O.A, Falaiye and C.A, Onate and O.J, Oluwadare and W.A, Yahya Entanglement fidelity for electron–electron interaction in strongly coupled semiclassical plasma and under external fields. Laser Physics Letters, 16. 045204. ISSN babatunde.falaye@gmail.com

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Abstract

This letter presents the effects of AB-flux field and electric field on electron–electron interaction, encircled by a strongly coupled semiclassical plasma. We found that weak external fields are required to perpetuate a low-energy elastic electron–electron interaction in a strongly coupled semiclassical plasma. The entanglement fidelity in the interaction process has been examined. We have used partial wave analysis to derive the entanglement fidelity. We found that for a weak electric field, the fidelity ratio for electron–electron interaction increases as the projectile energy increases, but remains constant or almost zero for a strong electric field. Our results provide invaluable information on how the efficiency of entanglement fidelity for a low-energy elastic electron–electron interaction in a strongly coupled semiclassical plasmacan be influenced by the presence of external fields

Item Type: Article
Subjects: Q Science > QC Physics
Depositing User: Clement Onate
Date Deposited: 09 Jul 2021 09:04
Last Modified: 09 Jul 2021 09:04
URI: https://eprints.lmu.edu.ng/id/eprint/3334

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