Fractional charge in transport through a 1D correlated insulator of finite length

Abstract

Transport through a one channel wire of length L confined between two leads is examined when the 1D electron system has an energy gap 2M: M > TL vc/L induced by the interaction in charge mode (vc: charge velocity in the wire). In spinless case the transformation of the leads electrons into the charge density wave solitons of fractional charge q entails a non-trivial low energy crossover from the Fermi liquid behavior below the crossover energy Tx TL M e-M /[TL(1-q2)] to the insulator one with the fractional charge in current vs. voltage, conductance vs. temperature, and in shot noise. Similar behavior is predicted for the Mott insulator of filling factor = integer/(2 m').

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