Shamik Gupta, Mustansir Barma, Satya N. Majumdar
Published 2007-10-03, updated 2007-12-11Version 2
We study finite-size effects on the dynamics of a one-dimensional zero-range process which shows a phase transition from a low-density disordered phase to a high-density condensed phase. The current fluctuations in the steady state show striking differences in the two phases. In the disordered phase, the variance of the integrated current shows damped oscillations in time due to the motion of fluctuations around the ring as a dissipating kinematic wave. In the condensed phase, this wave cannot propagate through the condensate, and the dynamics is dominated by the long-time relocation of the condensate from site to site.
Comments: 5 pages, 5 figures, version published in Phys. Rev. E Rapid Communications
Journal: Phys. Rev. E 76, 060101(R), 2007
Scaling of hysteresis loops at phase transitions into a quasiabsorbing state
Condensation Transitions in a One-Dimensional Zero-Range Process with a Single Defect Site
Inhomogeneities on all scales at a phase transition altered by disorder
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