Renormalized field theory and particle density profile in driven diffusive systems with open boundaries
Abstract
We investigate the density profile in a driven diffusive system caused by a plane particle source perpendicular to the driving force. Focussing on the case of critical bulk density c we use a field theoretic renormalization group approach to calculate the density c(z) as a function of the distance from the particle source at first order in ε=2-d (d: spatial dimension). For d=1 we find reasonable agreement with the exact solution recently obtained for the asymmetric exclusion model. Logarithmic corrections to the mean field profile are computed for d=2 with the result c(z)-c z-1 ((z))2/3 for z → ∞.
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