Current browse context:
cond-mat.stat-mech
Change to browse by:
References & Citations
Condensed Matter > Statistical Mechanics
Title: Nonstationary but quasisteady states in Self-organized Criticality
(Submitted on 31 Mar 2023)
Abstract: The notion of Self-organized criticality (SOC) had been conceived to interpret the spontaneous emergence of long range correlations in nature. Since then many different models had been introduced to study SOC. All of them have few common features: externally driven dynamical systems self-organize themselves to non-equilibrium stationary states exhibiting fluctuations of all length scales as the signatures of criticality. In contrast, we have studied here in the framework of the sandpile model a system that has mass inflow but no outflow. There is no boundary, and particles cannot escape from the system by any means. Therefore, there is no current balance, and consequently it is not expected that the system would arrive at a stationary state. In spite of that, it is observed that the bulk of the system self-organizes to a quasi-steady state where the grain density is maintained at a nearly constant value. Power law distributed fluctuations of all length and time scales have been observed which are the signatures of criticality. Our detailed computer simulation study gives the set of critical exponents whose values are very close to their counter parts in the original sandpile model. This study indicates that (i) a physical boundary and (ii) the stationary state though sufficient but may not be the necessary criteria for achieving SOC.
Link back to: arXiv, form interface, contact.