K. Oerding, H. K. Janssen
Published 1998-05-15Version 1
Using field theoretic renormalization group methods we study the critical behavior of a driven diffusive system near a boundary perpendicular to the driving force. The boundary acts as a particle reservoir which is necessary to maintain the critical particle density in the bulk. The scaling behavior of correlation and response functions is governed by a new exponent eta_1 which is related to the anomalous scaling dimension of the chemical potential of the boundary. The new exponent and a universal amplitude ratio for the density profile are calculated at first order in epsilon = 5-d. Some of our results are checked by computer simulations.
Comments: 10 pages ReVTeX, 6 figures included
Journal: Phys. Rev. E 58, 1446--1454 (1998)
Matrix Ansatz for the Fluctuations of the Current in the ASEP with Open Boundaries
Field Theory of Critical Behaviour in Driven Diffusive Systems with Quenched Disorder
Symmetry breaking through a sequence of transitions in a driven diffusive system
