Speaker: G.A. Francfort (Universit\'e Paris 13) Title: A variational view of brittle fracture evolution Abstract: The theory of fracture usually referred to as that of Griffith shows many drawbacks: it does not initiate cracks; it is powerless when trying to predict the crack path; it does not know how to handle sudden crack jumps, ..... Jean-Jacques Marigo and I have proposed a model based on energy minimization which does away with many of those obstacles, while departing as little as feasible from Grifffith's theory. I will first describe the details of the proposed model, show how it does away with the above mentioned drawbacks and evoke its specific shortcomings. From a mathematical stanpoint, the model resembles a kind of evolutionary image segmentation problem in the sense of Mumford \& Shah. Chris Larsen and I have shown the existence of a solution to the evolution for the weak -- \`a la De Giorgi -- formulation of the problem. I will describe the result and briefly evoke the method that was used. I will also mention the non-trivial extensions, obtained in collaboration with Gianni Dal Maso and Rodica Toader, to the case of a non-convex bulk energy. The model is readily amenable to numerics through various regularization of the energy which "Gamma-converge" to the original energy. This is the work of Blaise Bourdin (partly in collaboration with Antonin Chambolle). For lack of time, I will not discuss numerical issues, but merely illustrate the talk with Bourdin's computations in one or two cases that are well beyond the scope of classical brittle fracture