The nonlinear Schrödinger equation (NLSE) is one of the most important equations in quantum mechanics, and appears in a wide range of applications including optical fibre communications, plasma physics and biomolecule dynamics. It is a notoriously difficult problem to solve numerically as solutions have very steep temporal and spatial gradients. Adaptive moving mesh methods (r-adaptive) attempt to optimise the accuracy obtained using a fixed number of nodes by moving them to regions of steep solution features. This approach on its own is however limited if the solution becomes more or less difficult to resolve over the period of interest. Adaptive mesh refinement (h-adaptive), where the mesh is locally coarsened or refined, is an alternativ...
We extend two adaptive step size methods for solving two dimensional or multi dimensional generalize...
A numerical solution of the linear and nonlinear time-dependent Schrödinger equation is obtained, us...
article soumis à Optics CommunicationsInternational audienceIn optics the nonlinear Schrödinger equa...
In this paper, we implement the Adaptive Moving Mesh method (AMM) to the solution of initial value p...
AbstractAs a basic principle, benefits of adaptive discretisations are an improved balance between r...
This paper presents an efficient adaptive mesh redistribution method to solve a nonlinear Dirac (NLD...
39 pagesThis report is devoted to the study and to the comparison of methods for estimation of the l...
The simulation of time-dependent physical problems, such as flows of some kind, places high demands ...
In this paper the h-adaptive partition-of-unity method and the h- and hp-adaptive finite element met...
In this paper, the Kuramoto-Sivashinsky equation is solved using Hermite collocation method on an ad...
Motivated by the limited work performed on the development of computational techniques for solving t...
This paper presents an adaptive mesh method for solving the Kortewegde Vries-Burgers (KdVB) equation...
International audienceIn optics the nonlinear Schrõdinger equation (NLSE) which modelizes wave propa...
We study the new streamline diffusion finite element method for treating the three dimensional coupl...
This paper proposes moving mesh strategies for the moving mesh methods when solving the nonlinear ti...
We extend two adaptive step size methods for solving two dimensional or multi dimensional generalize...
A numerical solution of the linear and nonlinear time-dependent Schrödinger equation is obtained, us...
article soumis à Optics CommunicationsInternational audienceIn optics the nonlinear Schrödinger equa...
In this paper, we implement the Adaptive Moving Mesh method (AMM) to the solution of initial value p...
AbstractAs a basic principle, benefits of adaptive discretisations are an improved balance between r...
This paper presents an efficient adaptive mesh redistribution method to solve a nonlinear Dirac (NLD...
39 pagesThis report is devoted to the study and to the comparison of methods for estimation of the l...
The simulation of time-dependent physical problems, such as flows of some kind, places high demands ...
In this paper the h-adaptive partition-of-unity method and the h- and hp-adaptive finite element met...
In this paper, the Kuramoto-Sivashinsky equation is solved using Hermite collocation method on an ad...
Motivated by the limited work performed on the development of computational techniques for solving t...
This paper presents an adaptive mesh method for solving the Kortewegde Vries-Burgers (KdVB) equation...
International audienceIn optics the nonlinear Schrõdinger equation (NLSE) which modelizes wave propa...
We study the new streamline diffusion finite element method for treating the three dimensional coupl...
This paper proposes moving mesh strategies for the moving mesh methods when solving the nonlinear ti...
We extend two adaptive step size methods for solving two dimensional or multi dimensional generalize...
A numerical solution of the linear and nonlinear time-dependent Schrödinger equation is obtained, us...
article soumis à Optics CommunicationsInternational audienceIn optics the nonlinear Schrödinger equa...