M. Markosova, M. H. Jensen, K. B. Lauritsen, K. Sneppen
Published 1997-02-12Version 1
We study transport properties in a slowly driven diffusive system where the transport is externally controlled by a parameter $p$. Three types of behavior are found: For $p<p'$ the system is not conducting at all. For intermediate $p$ a finite fraction of the external excitations propagate through the system. Third, in the regime $p>p_c$ the system becomes completely conducting. For all $p>p'$ the system exhibits self-organized critical behavior. In the middle of this regime, at $p_c$, the system undergoes a continuous phase transition described by critical exponents.
Comments: 4 latex/revtex pages; 4 figures
Journal: Phys. Rev. E 55, R2085-R2088 (1997).
Prediction in a driven-dissipative system displaying a continuous phase transition
The Fokker-Planck operator at a continuous phase transition
Universal behavior of crossover scaling functions for continuous phase transitions
