Quantum Information of the Aharanov–Bohm Ring with Yukawa Interaction in the Presence of Disclination

Collins Okon Edet; Francisco Cleiton E. Lima; Carlos Alberto S. Almeida; Norshamsuri Ali; Muhammad Asjad

doi:10.3390/e24081059

Quantum Information of the Aharanov–Bohm Ring with Yukawa Interaction in the Presence of Disclination

Collins Okon Edet, Francisco Cleiton E. Lima, Carlos Alberto S. Almeida, Norshamsuri Ali, Muhammad Asjad

Mathematics

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

We investigate quantum information by a theoretical measurement approach of an Aharanov–Bohm (AB) ring with Yukawa interaction in curved space with disclination. We obtained the so-called Shannon entropy through the eigenfunctions of the system. The quantum states considered come from Schrödinger theory with the AB field in the background of curved space. With this entropy, we can explore the quantum information at the position space and reciprocal space. Furthermore, we discussed how the magnetic field, the AB flux, and the topological defect influence the quantum states and the information entropy.

Original language	British English
Article number	1059
Journal	Entropy
Volume	24
Issue number	8
DOIs	https://doi.org/10.3390/e24081059
State	Published - Aug 2022

Keywords

Aharanov–Bohm ring
quantum information
Schrödinger equation
Shannon entropy

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title = "Quantum Information of the Aharanov–Bohm Ring with Yukawa Interaction in the Presence of Disclination",

abstract = "We investigate quantum information by a theoretical measurement approach of an Aharanov–Bohm (AB) ring with Yukawa interaction in curved space with disclination. We obtained the so-called Shannon entropy through the eigenfunctions of the system. The quantum states considered come from Schr{\"o}dinger theory with the AB field in the background of curved space. With this entropy, we can explore the quantum information at the position space and reciprocal space. Furthermore, we discussed how the magnetic field, the AB flux, and the topological defect influence the quantum states and the information entropy.",

keywords = "Aharanov–Bohm ring, quantum information, Schr{\"o}dinger equation, Shannon entropy",

author = "Edet, {Collins Okon} and Lima, {Francisco Cleiton E.} and Almeida, {Carlos Alberto S.} and Norshamsuri Ali and Muhammad Asjad",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

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language = "British English",

volume = "24",

journal = "Entropy",

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AU - Edet, Collins Okon

AU - Lima, Francisco Cleiton E.

AU - Almeida, Carlos Alberto S.

AU - Ali, Norshamsuri

AU - Asjad, Muhammad

PY - 2022/8

Y1 - 2022/8

N2 - We investigate quantum information by a theoretical measurement approach of an Aharanov–Bohm (AB) ring with Yukawa interaction in curved space with disclination. We obtained the so-called Shannon entropy through the eigenfunctions of the system. The quantum states considered come from Schrödinger theory with the AB field in the background of curved space. With this entropy, we can explore the quantum information at the position space and reciprocal space. Furthermore, we discussed how the magnetic field, the AB flux, and the topological defect influence the quantum states and the information entropy.

AB - We investigate quantum information by a theoretical measurement approach of an Aharanov–Bohm (AB) ring with Yukawa interaction in curved space with disclination. We obtained the so-called Shannon entropy through the eigenfunctions of the system. The quantum states considered come from Schrödinger theory with the AB field in the background of curved space. With this entropy, we can explore the quantum information at the position space and reciprocal space. Furthermore, we discussed how the magnetic field, the AB flux, and the topological defect influence the quantum states and the information entropy.

KW - Aharanov–Bohm ring

KW - quantum information

KW - Schrödinger equation

KW - Shannon entropy

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VL - 24

JO - Entropy

JF - Entropy

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M1 - 1059

ER -

Quantum Information of the Aharanov–Bohm Ring with Yukawa Interaction in the Presence of Disclination

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