# Continuously sheared granular matter reproduces in detail seismicity   laws

**Authors:** S. Lherminier, R. Planet, V. Levy dit Vehel, G. Simon, L. Vanel, K. J., M{\aa}l{\o}y, O. Ramos

arXiv: 1901.06735 · 2019-06-05

## TL;DR

This study demonstrates that a simple shear experiment on granular matter can replicate key seismicity laws, including Gutenberg-Richter, Omori, and inter-event time distributions, revealing insights into earthquake dynamics.

## Contribution

The paper introduces a shear experiment with granular disks that quantitatively reproduces seismicity laws and features, highlighting the role of force networks in earthquake-like behavior.

## Key findings

- Energy distribution follows Gutenberg-Richter law
- Foreshocks and aftershocks follow Omori laws
- Inter-event times match real earthquake distributions

## Abstract

We introduce a shear experiment that quantitatively reproduces the main laws of seismicity. By continuously and slowly shearing a compressed monolayer of disks in a ring-like geometry, our system delivers events of frictional failures with energies following a Gutenberg-Richter law. Moreover foreshocks and aftershocks are described by Omori laws and inter-event times also follow exactly the same distribution as real earthquakes, showing the existence of memory of past events. Other features of real earthquakes qualitatively reproduced in our system are both the existence of a quiescence preceding mainshocks, as well as magnitude correlations linked to large quakes. The key ingredient of the dynamics is the nature of the force network, governing the distribution of frictional thresholds.

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/1901.06735/full.md

## References

41 references — full list in the complete paper: https://tomesphere.com/paper/1901.06735/full.md

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Source: https://tomesphere.com/paper/1901.06735