Recent book with colleagues
on "Transport et Diffusion".
Recent book
on "Neural Networks and Numerical Analysis"
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Principal fields of interest: they come from the mathematical analysis
and numerical solution of
Partial Differential Equations.
Applications come from the mathematical physics
(wave equations, compressible fluids) for various
problems.
Specific applications in Plasma Physics (ICF-Inertial Confinement Fusion and MCF-Magnetic Confinement
Fusion) are considered.
colloquim talk on Scattering theory (Lax, Kato, ...) interpretation of linearized Landau damping:
recently given at IAMP
Notes for a Master 2 course on plasmas
here
Long term interests in the construction of new numerical algorithms started in my
PhD thesis.
It
materialized recently in 2 directions
new approach to polynomials with sign:
Recent Results In Positivity Preserving Polynomials
here
Machine Learning
and Scientific Computing:
Machine Learning design of Volume of Fluid schemes for compressible flows, with H. Jourdren,
HAL 2020, JCP 2020
colloquim talk on ML:
recently given at LJLL/SU
Play with both polynomials and Machine Learning:
A functional equation with polynomial solutions and application to Neural Networks,
with Matthieu Ancellin
HAL 2020
ANR MUFFIN 2019/2023 here
: ITER oriented project
ANR CHROME 2012/2016 completed
: ITER oriented project
Groupe de travail
Stability and boundary interactions for fusion plasmas
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Recent 2019/2020 papers or preprints
Polynomials (positive, with Machine Learning, ...)
Machine Learning design of Volume of Fluid schemes for compressible flows,
with H. Jourdren,
HAL 2020, published in JCP
A convergent deep learning algorithm for approximation of polynomials,
HAL 2022
Numerical methods/scientific computing
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Implicit discretization of Lagrangian gas dynamics, with A. Plessier and S. del Pino,
HAL 2021
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Quadratic stability of flux limiters
HAL 2021
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Approximation with vectorial exponential functions of solutions of the P N model for the transport of particles
with G. Morel and C. Buet,
HAL 2021
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Trefftz Discontinuous Galerkin basis functions for a class of Friedrichs systems coming from linear transport,
with G. Morel and C. Buet,
to appear in ACOMP
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Sensitivity equation method for the Navier-Stokes equations applied to uncertainty propagation,
with C. Fiorina and A. Puscas
HAL 2020
Mathematical modeling in applied physics, with emphasis on plasma and fusion plasma
- Trace class properties of the non homogeneous linear Vlasov-Poisson equation in dimension 1+1,
to appear in J. Spectral theory, 2021
- The Vlasov-Ampere system and the Bernstein-Landau paradox, with F. Charles, A. Rege and R. Weder,
Hal 2020 ,
Arxiv 2020
- Corners and stable optimized domain decomposition methods for the Helmholtz problem,
with Anouk Nicolopoulos and Bertrand Thierry,
HAL 2020
- A variational sheath model for gyrokinetic Vlasov-Poisson equations,
with Mehdi Badsi, Martin Campos-Pinto and Ludov Godard-Cadillac,
HAL 2021
- On Domain Decomposition Methods with optimized transmission conditions and cross-points,
with Anouk Nicolopoulos and Bertrand Thierry,
HAL 2021
M2, cours de base B004
le site du cours ici ,
le poly ici , et aussi le
le poly plus complet.
Textes 29/09/2023):
texte TP2 ,
ici ,
ici ,
ici ,
ici .
proposition de corection Examen .