Impurity pinning in transport through 1D Mott-Hubbard and spin gap insulators
Abstract
A low energy crossover (see cond-mat/9711167) induced by Fermi liquid reservoirs in transport through a 1D Mott-Hubbard insulator of finite length L is examined in the presence of impurity pinning. Under the assumption that the Hubbard gap 2M is large enough: M > TL vc/L (vc: charge velocity in the wire) and the impurity backscattering rate 1 TL, the conductance vs. voltage/temperature displays a zero-energy resonance. Transport through a spin gapped 1D system is also described availing of duality between the backscattered current of this system and the direct current of the Mott-Hubbard insulator.
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