Depinning of the [formula omitted] square lattice Coulomb gas model at zero temperature

Abstract

The transport properties of the f = 1 / 2 square lattice Coulomb gas model at zero temperature are studied using Monte Carlo technique. The dependence of charge current density J on the driving electric field E is investigated by gradually increasing the electric field E from the annealed ground state. For pure system without disorder, a discontinuous depinning transition accompanying with an order-disorder transition is found when we ramp up the field. While for system with disorder, a continuous depinning transition, which obeys J ∼ ( E − E c ) β with scaling exponent β ≈ 1.0 for large systems, is observed. At the depinning electric field E c , the system crossovers from a disordered pinning state to a disordered moving state. We contribute the continuous depinning transition to the depinning of system from one of a vast of metastable states to other metastable states.