Publications
Curvature effects on the electronic and transport properties of semiconductor films
F. F. Batista Jr., A. Chaves, D. R. da Costa, and G. A. Farias
Physica E: Low-dimensional Systems and Nanostructures 99, 304
2018
Abstract
Within the effective mass approximation, we study the curvature effects on the electronic and transport properties of semiconductor films. We investigate how the geometry-induced potential resulting exclusively from periodic ripples in the film induces electronic confinement and a superlattice band structure. For fixed curvature parameters, such a confinement can be easily tuned by an external electric field, hence features of the superlattice band structure such as its energy gaps and band curvature can be controlled by an external parameter. We also show that, for some values of curvature and electric field, it is possible to obtain massless Dirac bands for a smooth curved structure. Moreover, we use a wave packet propagation method to demonstrate that the ripples are responsible for a significant inter-sub-band transition, specially for moderate values of the ripple height.
CONDENSED MATTER THEORY GROUP