Photoionization cross-section and polarizability of impurity in CdS/ZnS core/shell quantum dots capped in a dielectric matrix
Abstract
Using the effective mass approximation (E.M.A), we have performed theoretically the influence of the capped
matrix, the geometrical parameters and the applied electric intensity on the Polarizability and photoionization
cross-section (PCS) of CdS/ZnS core/shell quantum dots CSQDs. The energy states of the binding energy (BE) and
their corresponding wave functions are computed by solving Schrodinger ¨ equation in three-dimensional based on
the variational approach. Our numerical results show that the EF and the nature of dielectric medium have an
obvious influence on the BE, PCS and Polarizability of the structure. The present study suggests that the c/s
nanostructure dispersed in a dielectric matrix may improve the performance of optoelectronic and photonic
devices.