Ronald Dickman, Miguel A. Munoz, Alessandro Vespignani, Stefano Zapperi
Published 1999-10-27, updated 2000-05-25Version 2
We present a pedagogical introduction to self-organized criticality (SOC), unraveling its connections with nonequilibrium phase transitions. There are several paths from a conventional critical point to SOC. They begin with an absorbing-state phase transition (directed percolation is a familiar example), and impose supervision or driving on the system; two commonly used methods are extremal dynamics, and driving at a rate approaching zero. We illustrate this in sandpiles, where SOC is a consequence of slow driving in a system exhibiting an absorbing-state phase transition with a conserved density. Other paths to SOC, in driven interfaces, the Bak-Sneppen model, and self-organized directed percolation, are also examined. We review the status of experimental realizations of SOC in light of these observations.
Comments: 23 pages + 2 figures
Journal: Brazilian Journal of Physics 30, 27 (2000)
Self-organized criticality as an absorbing-state phase transition
Self-organized Criticality and Absorbing States: Lessons from the Ising Model
On possible experimental realizations of directed percolation
