International audienceWe introduce a new class of multi-revolution composition methods (MRCM) for the approximation of the $N$th-iterate of a given near-identity map. When applied to the numerical integration of highly oscillatory systems of differential equations, the technique benefits from the properties of standard composition methods: it is intrinsically geometric and well-suited for Hamiltonian or divergence-free equations for instance. We prove error estimates with error constants that are independent of the oscillatory frequency. Numerical experiments, in particular for the nonlinear Schrödinger equation, illustrate the theoretical results, as well as the efficiency and versatility of the methods
AbstractA method of order four for finding multiple zeros of nonlinear functions is developed. The m...
The convergence behaviour of multi-revolution composition methods combined with time-splitting metho...
In this paper we present and analyze a set of predictor-corrector iterative methods with increasing ...
We introduce a new class of multi-revolution composition methods for the approximation of the $$N$$ ...
International audienceWe introduce a new methodology to design uniformly accurate methods for oscil-...
International audienceThe convergence behaviour of multi-revolution composition methods combined wit...
International audienceWe introduce a class of numerical methods for highly oscillatory systems of st...
International audienceIn this paper, we are concerned with the application of the recently introduce...
International audienceWe suggest a method for the integration of highly oscillatory systems with a s...
The numerical solution of highly oscillatory initial value problems of second order with a unique hi...
AbstractThis paper presents a new efficient parameter method for integration of the highly oscillato...
International audienceA multiscale Hybrid High-Order method has been introduced recently to approxim...
We consider the numerical integration of high-order linear non-homogeneous differential equations, ...
New families of fourth-order composition methods for the numerical integration of initial value pro...
Splitting methods for the numerical integration of differential equations of order greater than two ...
AbstractA method of order four for finding multiple zeros of nonlinear functions is developed. The m...
The convergence behaviour of multi-revolution composition methods combined with time-splitting metho...
In this paper we present and analyze a set of predictor-corrector iterative methods with increasing ...
We introduce a new class of multi-revolution composition methods for the approximation of the $$N$$ ...
International audienceWe introduce a new methodology to design uniformly accurate methods for oscil-...
International audienceThe convergence behaviour of multi-revolution composition methods combined wit...
International audienceWe introduce a class of numerical methods for highly oscillatory systems of st...
International audienceIn this paper, we are concerned with the application of the recently introduce...
International audienceWe suggest a method for the integration of highly oscillatory systems with a s...
The numerical solution of highly oscillatory initial value problems of second order with a unique hi...
AbstractThis paper presents a new efficient parameter method for integration of the highly oscillato...
International audienceA multiscale Hybrid High-Order method has been introduced recently to approxim...
We consider the numerical integration of high-order linear non-homogeneous differential equations, ...
New families of fourth-order composition methods for the numerical integration of initial value pro...
Splitting methods for the numerical integration of differential equations of order greater than two ...
AbstractA method of order four for finding multiple zeros of nonlinear functions is developed. The m...
The convergence behaviour of multi-revolution composition methods combined with time-splitting metho...
In this paper we present and analyze a set of predictor-corrector iterative methods with increasing ...