Using first-principles methods, we investigate the structural and electronic properties of SiGe nanowiresbased heterostructures, whose lattice contains the same number of Si and Ge atoms but arranged in a different manner. Our results demonstrate that the wires with a clear interface between Si and Ge regions not only form the most stable structures but show a strongly reduced quantum confinement effect. Moreover, we, with the inclusion of many-body effects, prove that these nanowires--under optical excitation--display a clear electronhole separation property which can have relevant technological applications.
Reduced quantum confinement effect and electron-hole separation in SiGe nanowires
S Ossicini
2009
Abstract
Using first-principles methods, we investigate the structural and electronic properties of SiGe nanowiresbased heterostructures, whose lattice contains the same number of Si and Ge atoms but arranged in a different manner. Our results demonstrate that the wires with a clear interface between Si and Ge regions not only form the most stable structures but show a strongly reduced quantum confinement effect. Moreover, we, with the inclusion of many-body effects, prove that these nanowires--under optical excitation--display a clear electronhole separation property which can have relevant technological applications.File in questo prodotto:
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