The Effect of Relativistic Quantum Corrections on the Thermal Properties of Three-Dimensional Spherical Semiconductor Quantum Dot Under a Magnetic Field

Abstract: The ground state and excited states energies of 2-electron quantum dot with spherical harmonic oscillator type potential has been determined. The energy spectrum and wave functions for the quantum dot of asymmetric confinement are obtained by analytically solving the eigenvalue equation in the magnetic field. The effect of various relativistic corrections to kinetic energy, Darwin term and spin-orbit for the zero-dimensional structure to the energy eigenvalues and wave functions is also investigated. The therm… Show more

“…This involves applying mechanical strain to these materials to alter their properties, a technique that has the potential for high-performance 2D-material-based devices. Strain engineering can fundamentally change the electronic and optoelectronic properties of 2D materials, leading to novel functional device applications [ 109 , 110 ].…”

Advancement in Biosensor Technologies of 2D MaterialIntegrated with Cellulose—Physical Properties

“…This involves applying mechanical strain to these materials to alter their properties, a technique that has the potential for high-performance 2D-material-based devices. Strain engineering can fundamentally change the electronic and optoelectronic properties of 2D materials, leading to novel functional device applications [ 109 , 110 ].…”

Advancement in Biosensor Technologies of 2D MaterialIntegrated with Cellulose—Physical Properties