Quantum-information theory of magnetic field influence on circular dots with different boundary conditions

Abstract: Influence of the transverse uniform magnetic field Β on position (subscript ρ) and momentum (γ) Shannon quantum-information entropies S ρ,γ, Fisher informations I ρ,γ and Onicescu energies O ρ,γ is studied theoretically for the 2D circular quantum dots (QDs) whose circumference supports homogeneous either Dirichlet or Neumann boundary condition (BC). Comparative analysis reveals similarities and differences of the influence on the properties of the structure of the surface interaction with the … Show more

“…Very recently, El‐Bakkari et al reported the magnetic field effect on the optical absorption of a donor in a GaAs quantum ring [ 33 ] ; Shafeekali and his group investigated the quantum‐information theory of magnetic field effect on the circular quantum dots. [ 34 ] Based on this work, we further investigate the shape complexity of a particle confined in an MCQW in this work. Our study is divided into three parts.…”

The Shape Complexity of a Particle in the Circular Quantum Well with Homogeneous Perpendicular Magnetic Field

“…Very recently, El‐Bakkari et al reported the magnetic field effect on the optical absorption of a donor in a GaAs quantum ring [ 33 ] ; Shafeekali and his group investigated the quantum‐information theory of magnetic field effect on the circular quantum dots. [ 34 ] Based on this work, we further investigate the shape complexity of a particle confined in an MCQW in this work. Our study is divided into three parts.…”

The Shape Complexity of a Particle in the Circular Quantum Well with Homogeneous Perpendicular Magnetic Field

Shannon entropy measurements for quantum oscillator system in the presence of a spiral dislocation

Informational analysis of the confinement of an electron in an asymmetric double quantum dot