Transport through a 1D Mott-Hubbard insulator of finite length
Abstract
Transport through a 1D Mott-Hubbard insulator of a finite length L is studied beyond perturbative approach. At special value of the low energy constant of the interaction we have mapped the problem onto the exactly solvable models and found current vs. voltage V at high temperature T>max(m,TL) and at low energy T,V<TL (TL=vc/L; vc: charge velocity). The result shows that for the strong interaction creating a large Mott-Hubbard gap 2m TL inside the wire, the transport is suppressed near half-filling everywhere inside the gap except for an exponentially small region of V,T < TL exp(-2m/TL).
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