#### Sobre o Evento

Symmetries assumptions arise naturally when modeling natural phenomena. For instance, these are commonly obtained assuming the existence of some group of symmetry on a certain Riemannian manifold. The relation with physics, and hence, to the best of our current knowledge, to nature, is reinforced by the classical Noether Theorem.It is classical nowadays that geometric analytic problems modeled on manifolds equipped with symmetries coming from group actions are easier to deal with given both the existence of better compactness embeddings of Sobolev spaces in Lebesgue spaces and the classical Principle of Symmetric Criticality due to Palais. In this talk, we aim to show how symmetries can lead to easier solvability to plenty of elliptic partial differential equations related not only to the pure geometric ground but plasma equations, Kirchhoff critical problem -- a model for the motion of electrorheological fluids, characterized by their ability to change thl properties drastically when influenced by an external electromagnetic field; amoeir mechanicang others. A huge advantage coming from our approach is that symmetries allow us to circumvent critical exponents in elliptic partial differential equations. I'll present more problems to be approached by mixing statistics and numerical analysis.Target audience: Professors, postdocs, and Students of Mathematics, Applied Mathematics interested in mixing their capabilities in different contexts.Pre-requisites: The talk is thought to introduce the minimum required for understanding it during the presentation. Deep comments shall be made, but the lecturer intends that everyone could take some aspect of it.

Texto informado pelo autor.

* Os participantes dos seminários não poderão acessar às dependências da FGV usando bermuda, chinelos, blusa modelo top ou cropped, minissaia ou camiseta regata. O uso da máscara é facultativo, porém é obrigatória a apresentação do comprovante de vacinação (físico ou digital).

#### Apoiadores / Parceiros / Patrocinadores

## Palestrantes

#### Leonardo F. Cavenaghi

Leonardo F. Cavenaghi is a Brazilian mathematician currently a postdoc at the State University of Campinas (Unicamp), funded by the São Paulo Research Foundation (FAPESP), associated with the group of geometry, Lie theory, and dynamics. He defended his Ph.D. in Mathematics at the University of São Paulo (USP) (2020) under the supervision of Llohann D. Sperança e Marcos Alexandrino. He was awarded the `Gutierrez Prize' and the 'CAPES thesis prize' for writing the best Ph.D. thesis in mathematics defended in 2020. He returned to Brazil for his current position after working for a year as a postdoc at the University of Fribourg (Switzerland), sponsored by the Swiss National Foundation for Sciences. His current research address goes from theoretical physics with the analytic interface: T-duality and General Relativity to Elliptic Partial Differential Equations via symmetries, Riemannian Geometry, and dynamical systems.

### Local

## Endereço

**a) Opção presencial ***

**Praia de Botafogo, 190**

5^{o} andar, Auditório 537

**b) Opção remota **(via Zoom)

**Link:**
ID: 959 4976 5940

**Informações adicionais:**

Tel: 55 21 3799-5917