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

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 Schrodinger 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.

Automated summary

The study investigates quantum information using the Aharanov-Bohm (AB) ring in Yukawa mechanics in curved space. Shannon entropy is obtained through the eigenfunctions of the system, allowing exploration of quantum information in position and reciprocal space. The study also discusses the influence of magnetic field, AB flux, and topological defect on quantum states and information entropy.