Excitation kinetics of quantum dot induced by damped propagation of dopant: Role of confinement potential and magnetic field

- The excitation kinetics of doped quantum dot has been investigated.
- The dopant propagation is damped.
- Confinement sources couple with damping.
- The coupling influences the excitation kinetics.

We investigate the excitation kinetics of a repulsive impurity doped quantum dot as the dopant is propagating. The study assumes importance because of its intimate connection with impurity drift in nanodevices. The problem has been made more realistic by considering the dopant propagation to be damped. For simplicity, we have considered an inherently linear motion of the dopant with a Gaussian potential. The damping strength and the dot confinement sources of electric and magnetic origin have been found to fabricate the said kinetics in a delicate way. The present study sheds light on how the individual or combined variation of different confinement sources could design the excitation kinetics in presence of damping. However, in the overdamped region, we find attainment of stabilization in the excitation rate. The present investigation is believed to provide some useful perceptions in the phenomenon of damping that has potential importance in nanoelectronic applications.