Transport through short quantum wires

Abstract

At temperatures T < vF/KB d Twire the collective excitations are negligible and the spectrum of the short wire is dominated by the ''zero modes'' particle excitations. At temperature T > Twire a spin polarized state controlled by the electron-electron interaction and electron density is identified at short times. As a result the anomaly in the conductance G > 2 × 0.5 e2/h appears. At T 0 by varying the gate voltage we find that our problem is equivalent to a resonant impurity level. As a result perfect transmission with a conductance G 2 e2h is obtained. The model presented here can be used as a spin filter which operate by varying the temperature. Transport through a short quantum wire with electron-electron interaction and length ``d'' coupled to Luttinger leads is considered. The short wire model might explain the ``0.7 anomaly'' observed in quantum point contacts.

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