Physics Colloquium with Karin Dahmen on Universal Avalanches

Karin Dahnen (Hosted by Nussinov) from University of Illinois at Urbana-Champaign will be presenting the colloquium "Universal avalanches across 16 decades in length: From nanocrystals (and neurons) to earthquakes and stars."

Slowly-compressed nano-crystals, bulk metallic glasses, rocks, granular materials, and the earth all deform via intermittent slips or “quakes”. We find that although these systems span 12 decades in length scale, they all show the same scaling behavior for their slip size distributions and other statistical properties. Remarkably, the size distributions follow the same power law multiplied with the same exponential cutoff. The cutoff grows with applied force for materials spanning length scales from nanometers to kilometers, indicating an underlying nonequilibrium phase transition. A simple mean field model for avalanches of slipping weak spots explains the agreement across scales. It predicts the observed slip-size distributions and the observed stress-dependent cutoff function. The analysis draws on tools from statistical physics and the renormalization group. The results enable extrapolations from one scale to another, and from one force to another, across different materials and structures, from nanocrystals to earthquakes. Connections to neuron avalanches in the brain and recent observations on stars will also be discussed, extending the range of scales to 16 decades in length.

Karin Dahmen received her Vordiplom in physics from the Universität Bonn, Germany, and her PhD in physics from Cornell. Before joining the faculty at Illinois, she was a Junior Fellow at Harvard University.

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