Ground state structure and conductivity of quantum wires of infinite length and finite width

Abstract

We have studied the ground state structure of quantum strips within the local spin-density approximation, for a range of electronic densities between 5×104 and 2×106 cm-1 and several strengths of the lateral confining potential. The results have been used to address the conductance G of quantum strips. At low density, when only one subband is occupied, the system is fully polarized and G takes a value which is close to 0.7(2e2/h), decreasing with increasing electron density in agreement with experiments. At higher densities the system becomes paramagnetic and G takes a value near (2e2/h), showing a similar decreasing behaviour with increasing electron density. In both cases, the physical parameter that determines the value of the conductance is the ratio K/K0 of the compressibility of the system over the free one.

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