Single-electron soliton avalanches in tunnel junction arrays

Abstract

Numerical modeling of correlated single-electron tunneling in uniform 2D arrays of small conducting islands separated by tunnel junctions shows the possiblility of soliton-antisoliton avalanches. Though the time duration of any avalanche, and the total charge Q = ne transferred across the array during the avalanche, are always finite, in arrays with length N larger than certain critical value Nc and large width M f(N), the avalanche magnitude n may be exponentially large, resulting in particular in a giant increase of shot noise. Thermal fluctuations and disorder gradually suppress the avalanche effect.

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