Institut de Mathématiques


European Union - H2020 Program


University Paul Sabatier




Participants
Name Affiliation Arrival Departure Housing
M. Bessemoulin-Chatard CNRS, NantesNovember 5th November 10th reservation hotel to be done
F. Boyer Université ToulouseNovember 5th November 10th no reservation
F. Charles University Paris 6November 5th November 10th no reservation
F. Chazel Insa ToulouseNovember 5th November 10th no reservation
J.-F. CoulombelCNRS, ToulouseNovember 6th November 10th no reservation
J. Crevat Université ToulouseNovember 6th November 10th no reservation
B. Desprès Université Paris 6November 5th November 10th reservation hotel to be done
F. Delebecque Université de ToulouseNovember 6th November 10th no reservation
L. Desvillettes Université Paris 7November 8th November 10th no reservation to be done
Ch. Etchegaray Université Toulouse III November 6th November 10th no reservation
G. Faye CNRS, Toulouse November 6th November 10th no reservation
B. Fedele Université de ToulouseNovember 6th November 10th no reservation
S. Figueroa Université de ToulouseNovember 6th November 10th no reservation
F. Filbet Université de ToulouseNovember 6th November 10th no reservation
F. Golse Ecole PolytechniqueNovember 7th November 10th reservation hotel to be done
D. Han Kwan CNRSNovember 8th November 10th reservation hotel to be done
M. Hauray AMUNovember 8th November 10th reservation hotel to be done
M. Herda Université de LyonNovember 5th November 10th reservation hotel to be done
S. Jin Wisconsin UniversityNovember 5th November 8th reservation hotel to be done
N. Kassis AMUNovember 8th November 10th reservation hotel to be done (CNRS)
A. Klar TU KaiserslauternNovember 5th November 9th reservation hotel to be done
P. Lafitte EC ParisNovember 6th November 9th reservation hotel to be done
F. Lagoutière Université de LyonNovember 6th November 10th reservation hotel to be done
X. Lamy Université de Toulouse IIINovember 6th November 10th no reservation
M. Lemou CNRS RennesNovember 6th November 10th reservation hotel to be done
A. Léculier Université de ToulouseNovember 6th November 10th no reservation
F. Li Rensselaer Polytechnic InstituteNovember 5th November 12th reservation hotel to be done
R. Loubère CNRS, BordeauxNovember 6th November 10th no reservation
G. Morel Université Paris 6November 6th November 10th no reservation
S. Motsch Arizona State UniversityNovember 4th November 11th no reservation
S. Mirrahimi CNRS, ToulouseNovember 6th November 10th no reservation
J. Narski Université de ToulouseNovember 6th November 10th no reservation
C. Negulescu Université de ToulouseNovember 6th November 10th no reservation
P. Noble Université de ToulouseNovember 6th November 10th no reservation
L. Pareschi Université FerrareNovember 7th November 10th reservation hotel to be done
Y. Peshkov Université de ToulouseNovember 6th November 10th no reservation
B. Polizzi Université de ToulouseNovember 6th November 10th no reservation
S. Possanner TU MunichNovember 6th November 10th reservation hotel to be done
J. Qiu University of HoustonNovember 5th November 11th reservation hotel to be done
T. Rey Université de LilleNovember 5th November 10th reservation hotel to be done
L. M. Rodrigues Université de RennesNovember 5th November 10th reservation hotel to be done
C.-W. Shu Brown UniversityNovember 5th November 11th reservation hotel to be done (double room)
A. Trescases CNRS, ToulouseNovember 6th November 10th reservation hotel to be done
M.-H. Vignal Université de ToulouseNovember 6th November 10th no reservation
T. Xiong Université de ToulouseNovember 6th November 10th no reservation
Z. Xu Michigan TechNovember 6th November 10th no reservation
H. Zakerzadeh CIMI, ToulouseNovember 6th November 10th no reservation






Presentation of the Workshop

Kinetic theory plays a central role in many areas of mathematical physics, from nanoscales to fluid mechanics. It is an indispensable tool in the mathematical description of applications in physical science, from its origin in dilute gases, to wide applications such as fluid mechanics, polymers, cells, plasmas.

On the one hand, kinetic models provide more detailed and accurate description of regimes where hydrodynamic equations are either invalid or simply not available. Thus, kinetic theory is at the core of multiscale modeling, which connects fundamental invisible microscopic models with macroscopic models. As an example, the celebrated Boltzmann equation is the foundation of the kinetic theory for dilute collections of particles, which undergo elastic binary collisions. The Boltzmann theory is at the center of a series of multi-scaled physical models that connect microscopic multiparticle models to macroscopic fluid models such as the Navier-Stokes equations. On the other hand, fluid mechanics, especially fluid dynamics, is an active field of research in mathematics and numerical analysis with many unsolved or partly solved problems.

Many challenges remain in both the analysis and modelling for such problems. This workshop program in kinetic theory and fluid mechanics will provide the participants with an introduction to a broad range of analytical and modelling aspects of both domains.





Program

Abstracts Participants Contact

Last update: Jul. 4th 2017