Energy states of diatomic quantum dot in the presence of quantum deformation
Miftahul Maarif, A Suparmi and C Cari
Physics Departement of Graduate Program, Sebelas Maret University, Surakarta, Indonesia
Abstract
We investigate energy levels of a diatomic quantum dot by using an analytical solution of Hamiltonian that will reduced to Schrodinger equation. We solved the one dimensional Schrodinger equation with the presence of Quantum deformation in the radial part. We obtained the ground state and the next excited states eigen values by using supersymmetric quantum mechanics (SUSY QM) method.
Keywords: Quantum Dot, Quantum Deformation, Schrodinger Equation
Topic: Interdisciplinary Physics