Applied Mathematics Colloquium with Pierre Amenoagbadji, Columbia
Speaker: Pierre Amenoagbadji, Columbia University
Title: Wave propagation in quasiperiodic media
Abstract: A quasiperiodic medium is an ordered medium without being periodic. A fairly well-known example since the 2011 Nobel Prize in Chemistry is the quasicrystal. The notion of quasiperiodic and more generally of almost periodic function is a very well-defined notion in the mathematical literature. To give an idea, a 1D quasiperiodic function is the trace along a line of a periodic function of n variables. PDEs with quasi-periodic coefficients have been the subject of a number of theoretical studies, but it seems that there has been much less work on the numerical resolution of these equations.
The objective of this work is to develop original numerical methods for the resolution of the time-harmonic wave equation in quasiperiodic media, in the spirit of the methods previously developed for periodic media. The idea is to use the fact that the study of an elliptic PDE with quasiperiodic coefficients comes down to the study of an "augmented" non-elliptic PDE in higher dimensions, but whose coefficients are periodic. This so-called lifting approach allows to use tools that are adapted for periodic media, but comes with the price that the augmented PDE is non-elliptic, in the sense of its principal part.
In this talk, I will first present the lifting method for the 1D Helmholtz equation with quasiperiodic coefficients. I will then explain how this method can be used to solve the 2D Helmholtz equation in presence of periodic halfspaces. The method will be illustrated by numerical results.
Bio: Since January 2024, Pierre Amenoagbadji has been a postdoctoral fellow in the APAM Department at Columbia Engineering, under the supervision of Prof. Michael Weinstein. In December 2023, he completed his Ph.D. titled "Wave propagation in quasiperiodic media" at POEMS (UMR CNRS-ENSTA Paris-INRIA) under the supervision of Sonia Fliss and Patrick Joly. He is interested in the analysis and simulation of wave propagation phenomena in heterogeneous media.
This talk will be offered in a hybrid format. If you wish to participate remotely, please send an email to [email protected].
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