Weak and Strong Localization in Low-Dimensional Semiconductor Structures
Abstract
The dependence of the localization length on the number of occupied subbands N in low-dimensional semiconductors is investigated. The localization length is shown to be proportional to the number of occupied subbands in quasi-one-dimensional quantum wires while it grows exponentially with N in quasi-two-dimensional systems. Also a weak localization theory is developed for large N with a well-defined small expansion parameter 1/N. The temperature dependence of the conductivity deduced using this perturbation theory agrees with the experimentally observed dependence.
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