International audienceWe introduce a new methodology to design uniformly accurate methods for oscil-latory evolution equations. The targeted models are envisaged in a wide spectrum of regimes, from non-stiff to highly-oscillatory. Thanks to an averaging transformation, the stiffness of the problem is softened, allowing for standard schemes to retain their usual orders of convergence. Overall, high-order numerical approximations are obtained with errors and at a cost independent of the regime
International audienceIn this paper, we are concerned with the numerical solution of highly-oscillat...
International audienceIn this paper, we develop a new strategy aimed at obtaining high-order asymp-t...
The construction and the analysis of nonoscillatory shock capturing methods for the approximation of...
International audienceWe introduce a new methodology to design uniformly accurate methods for oscil-...
We introduce a new methodology to design uniformly accurate methods for oscillatory evolution equati...
International audienceThis work is devoted to the numerical simulation of nonlinear Schrödinger and ...
International audienceIn the analysis of highly-oscillatory evolution problems, it is commonly assum...
International audienceIn this work, we adapt the micro-macro methodology to stochastic differential ...
In this work, we adapt the {\em micro-macro} methodology to stochastic differential equations for th...
International audienceWe suggest a method for the integration of highly oscillatory systems with a s...
International audienceIn this paper, we are concerned with an averaging procedure, - namely Strobosc...
International audienceIn this paper, we are concerned with the application of the recently introduce...
The construction and the analysis of nonoscillatory shock capturing methods for the approximation of...
International audienceWe introduce a new class of multi-revolution composition methods (MRCM) for th...
In this paper (a third in a series) the construction and the analysis of essentially non-oscillatory...
International audienceIn this paper, we are concerned with the numerical solution of highly-oscillat...
International audienceIn this paper, we develop a new strategy aimed at obtaining high-order asymp-t...
The construction and the analysis of nonoscillatory shock capturing methods for the approximation of...
International audienceWe introduce a new methodology to design uniformly accurate methods for oscil-...
We introduce a new methodology to design uniformly accurate methods for oscillatory evolution equati...
International audienceThis work is devoted to the numerical simulation of nonlinear Schrödinger and ...
International audienceIn the analysis of highly-oscillatory evolution problems, it is commonly assum...
International audienceIn this work, we adapt the micro-macro methodology to stochastic differential ...
In this work, we adapt the {\em micro-macro} methodology to stochastic differential equations for th...
International audienceWe suggest a method for the integration of highly oscillatory systems with a s...
International audienceIn this paper, we are concerned with an averaging procedure, - namely Strobosc...
International audienceIn this paper, we are concerned with the application of the recently introduce...
The construction and the analysis of nonoscillatory shock capturing methods for the approximation of...
International audienceWe introduce a new class of multi-revolution composition methods (MRCM) for th...
In this paper (a third in a series) the construction and the analysis of essentially non-oscillatory...
International audienceIn this paper, we are concerned with the numerical solution of highly-oscillat...
International audienceIn this paper, we develop a new strategy aimed at obtaining high-order asymp-t...
The construction and the analysis of nonoscillatory shock capturing methods for the approximation of...