We have developed a method, based on the effective mass approximation, for calculating electronic states in an arbitrarily shaped quantum nanostructnre. Modelling the average porous silicon nanostructure with a deformed quantum wire, the calculated shallow impur ity binding energies are in good agreement with surface photovoltage spectroscopy data. We have also studied a new type of surface carrier. localization clue to nanostructure: surface geometrical irregularities. The implications of the existence or these: trapping states are discussed for porous silicon.
Impurity and topological surface states in porous silicon
Cantele G;
2000
Abstract
We have developed a method, based on the effective mass approximation, for calculating electronic states in an arbitrarily shaped quantum nanostructnre. Modelling the average porous silicon nanostructure with a deformed quantum wire, the calculated shallow impur ity binding energies are in good agreement with surface photovoltage spectroscopy data. We have also studied a new type of surface carrier. localization clue to nanostructure: surface geometrical irregularities. The implications of the existence or these: trapping states are discussed for porous silicon.File in questo prodotto:
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