Rinke J. Wijngaarden, Marco S. Welling, Christof M. Aegerter, Mariela Menghini
Published 2005-10-19Version 1
We review the use of superconductors as a playground for the experimental study of front roughening and avalanches. Using the magneto-optical technique, the spatial distribution of the vortex density in the sample is monitored as a function of time. The roughness and growth exponents corresponding to the vortex landscape are determined and compared to the exponents that characterize the avalanches in the framework of Self-Organized Criticality. For those situations where a thermo-magnetic instability arises, an analytical non-linear and non-local model is discussed, which is found to be consistent to great detail with the experimental results. On anisotropic substrates, the anisotropy regularizes the avalanches.
Emergence and complexity in theoretical models of self-organized criticality
Lyapunov exponents and transport in the Zhang model of Self-Organized Criticality
A Bottom-Up Model of Self-Organized Criticality on Networks
