# Soutenance de thèse : François Landes

## Viscoelastic interfaces Driven in Disordered Media & Application to Friction

### François Landes, LPTMS

Many complex systems respond to a continuous input of energy by an accumulation of stress over time, interrupted by sudden energy releases called avalanches. Recently, it has been pointed out that several basic features of avalanche dynamics are induced at the microscopic level by relaxation processes, which are neglected by most models. During my thesis, I studied two well-known models of avalanche dynamics, modified minimally by the inclusion of some forms of relaxation.

The first system is that of a viscoelastic interface driven in a disordered medium. In mean-field, we prove that the interface has a periodic behaviour (with a new, emerging time scale), with avalanche events that span the whole system. We compute semi-analytically the friction force acting on this surface, and find that it is compatible with classical friction experiments. In finite dimensions (2D), the mean-field system-sized events become local, and numerical simulations give qualitative and quantitative results in good agreement with several important features of real earthquakes.

The second system including a minimal form of relaxation consists in a toy model of avalanches: the Directed Percolation process. In our study of a non-Markovian variant of Directed Percolation, we observed that the universality class was modified but not completely. In particular, in the non-Markov case an exponent changes of value while several scaling relations still hold. This picture of an extended universality class obtained by the addition of a non-Markovian perturbation to the dynamics provides promising prospects for our first system.

**Date/Time : ** 10/09/2014 - *10:00 - 13:00*

**Location : ** IPN-batiment 100, Auditoriurm

#### Upcoming seminars

- Soutenance de thèse : Alexandre Pricoupenko - 6 Sep 2021 - 14:00
- Journée des laboratoires FFJ - 16 Sep 2021 - 00:00
- Soutenance de thèse : Hugo Le Roy - 4 Oct 2021 - 14:00
- Fête de la Science 2021 - 8 Oct 2021 - 00:00
- Soutenance de thèse : Lucas Varela Alvarez - 17 Nov 2021 - 14:30