Organizers: Giovanni Catino and Fabio Cipriani

**Pedro Antunes**, Group of Mathematical Physics - University of Lisbon,

*Numerical shape optimization using the Method of Fundamental Solutions*, Wednesday, November 06, 2013, time 14:00 o'clock, Aula seminari III piano

**Abstract:****Abstract:**
In this talk we consider some shape optimization problems for eigenvalues of the Laplacian and Bilaplacian (clamped plate and buckled plate eigenvalue problems).
The solution of these problems has been studied by using several numerical methods.
We address the use of a gradient type method with the Method of Fundamental Solutions (MFS) as forward solver. The MFS is a meshless method that allows the solution of the eigenvalue problems with high accuracy, even with small dimension matrices.
This feature allows to consider also the shape optimization with 3D and 4D domains.
Several examples are presented to illustrate the good performance of the method.
**Hynek Kovarik**, Università di Brescia,

*Comportamento asintotico del p-Laplaciano*, Wednesday, October 16, 2013, time 14:00 o'clock, Aula seminari III piano

**Abstract:****Abstract:**
Consideriamo il primo autovalore dell operatore dato dalla somma del p-Laplaciano e di un potenziale V in R^n.
Studiamo il comportamento asintotico di questo autovalore per V che tende a zero.
Mostreremo, in particolare, come lo
sviluppo asintotico dipende da p e dalla dimensione dello spazio.
**Carlos Escudero**, Universidad Autonoma de Madrid,

*Existence results for a fourth order equation arising in the
theory of non-equilibrium phase transitions*, Wednesday, October 02, 2013, time 14:00 o'clock, aula seminari VI piano

**Abstract:****Abstract:**
In this talk we will introduce a model that arises in the
theory of non-equilibrium phase transitions, in particular in the
description of self-affine surfaces. We will briefly comment on the
role that this model is meant to play in this physical theory.
Furthermore, we will mention some open questions of physical nature
related to it. Subsequently we will start with the rigorous analysis
of our model, which is a fourth order partial differential equation. We
will describe our progress in building an existence theory for the
full model, which is a parabolic equation, and for its stationary
counterpart. For the latter case existence and multiplicity results
are provided, and for the former one we will show local in time
existence of the solution, that can be made global for small enough
data, and cannot if these are large enough. We will show how these
results fit into the physical theory, and what open questions are left
for the future.
**A. Takatsu**, Nagoya University,

*Evolution equations as Wasserstein gradient flows*, Friday, September 27, 2013, time 14:00 o'clock, Aula seminari III piano

**Abstract:****Abstract:**
In this talk, I study a certain evolution equation on a weighted Riemannian manifold as the gradient flow of a generalized relative entropy with respect to the Wasserstein metric. The Wasserstein metric is a metric on the space of probability measures. For example, it is known that the porous medium equation is the Wasserstein gradient flow of the Tsallis entropy. I give a criterion for generalized relative entropies to be convex. From the convexity of generalized relative entropies, I derive appropriate variants of the Poincaré and the logarithmic Sobolev inequalities, also the contraction propety of its gradient flow. This is a joint work with Shin-ichi Ohta.
**Ciprian Gal**, Florida International University,

*On degenerate parabolic equations with dynamic boundary conditions*, Friday, July 05, 2013, time 11:15 o'clock, Aula seminari III piano

**Abstract:****Abstract:**
We wish to present some recent developments concerning the
solvability of some classes of quasilinear parabolic equations with
dynamic boundary conditions. We will describe issues from
well-posedness to the long time asymptotic behavior as time goes to
infinity (attractors, dimension estimates, etc). We will explain how
to derive new conditions which reflect an exact balance between the
internal and the boundary mechanisms involved, even when both the
nonlinear sources contribute in opposite directions. Blow up of
solutions will also be touched on.
**Daniele Valtorta**, Università degli Studi dell Insubria,

*Quantitative stratification and critical sets of harmonic functions*, Thursday, June 06, 2013, time 12:00, Aula seminari III piano

**Abstract:****Abstract:**
Given a harmonic function defined on the unit ball of R^n, we discuss techniques to
obtain effective volume estimates on the tubular neighborhood of its critical sets.
We use a technique recently introduced by proff. Jeff Cheeger and Aaron Naber,
called quantitative stratification technique. It is based on approximate symmetries
of the function u at different scales. Studying how these approximate symmetries
interact with each other, we obtain the effective volume estimates.
These results
are described in a preprint available on arXiv.
We also discuss possible improvements
of the results using a refined quantitative differentiation argument and packing
estimates for semi-algebraic sets.