Add to ORKGI describe a new algorithm for solving nonlinear wave equations. In this approach, evolution takes place on characteristic hypersurfaces. The algorithm is directly applicable to electromagnetic, Yang-Mills and gravitational fields and other systems described by second differential order hyperbolic equations. The basic ideas should also be applicable to hydrodynamics. It is an especially accurate and efficient way for simulating waves in regions where the characteristics are well behaved. A prime application of the algorithm is to Cauchy-characteristic matching, in which this new approach is matched to a standard Cauchy evolution to obtain a global solution. In a model problem of a nonlinear wave, this proves to be more accurate and efficien...
We propose asimple new method for the construction of solutions of multidimensional nonlinear wave e...
The traditional wave equation is mostly, if not always, obtained from a system of first order partia...
It is well known that gravitational waves interact in a non-linear way. This makes it difficult to d...
I describe a new algorithm for solving nonlinear wave equations. In this approach, evolution takes p...
We investigate a new methodology for computing wave generation, using Cauchy evolution in a bounded ...
We consider the numerical evolution of dynamic black hole initial data sets with a full 3D, nonlinea...
We consider the numerical evolution of dynamic black hole initial data sets with a full 3D, nonlinea...
We present a spectral algorithm for solving the full nonlinear vacuum Einstein field equations in th...
The book details a few of the novel methods developed in the last few years for studying various asp...
Many nonequilibrium phenomena are spatially extended, and the most popular means to model them is th...
From the definition of Legendre elliptic integration and Jacobi elliptic function, new transformatio...
This paper gives a detailed pedagogic presentation of the central concepts underlying a new algorith...
We present the first results in a new program intended to make the best use of all available technol...
Contact: plushnik[at]math.unm.edu Course web page: math.unm.edu/plushnik/teaching/math579nonlinearwa...
An extension of the wave propagation algorithm first introduced by LeVeque [J. Comp. Phys. 131, 327-...
We propose asimple new method for the construction of solutions of multidimensional nonlinear wave e...
The traditional wave equation is mostly, if not always, obtained from a system of first order partia...
It is well known that gravitational waves interact in a non-linear way. This makes it difficult to d...
I describe a new algorithm for solving nonlinear wave equations. In this approach, evolution takes p...
We investigate a new methodology for computing wave generation, using Cauchy evolution in a bounded ...
We consider the numerical evolution of dynamic black hole initial data sets with a full 3D, nonlinea...
We consider the numerical evolution of dynamic black hole initial data sets with a full 3D, nonlinea...
We present a spectral algorithm for solving the full nonlinear vacuum Einstein field equations in th...
The book details a few of the novel methods developed in the last few years for studying various asp...
Many nonequilibrium phenomena are spatially extended, and the most popular means to model them is th...
From the definition of Legendre elliptic integration and Jacobi elliptic function, new transformatio...
This paper gives a detailed pedagogic presentation of the central concepts underlying a new algorith...
We present the first results in a new program intended to make the best use of all available technol...
Contact: plushnik[at]math.unm.edu Course web page: math.unm.edu/plushnik/teaching/math579nonlinearwa...
An extension of the wave propagation algorithm first introduced by LeVeque [J. Comp. Phys. 131, 327-...
We propose asimple new method for the construction of solutions of multidimensional nonlinear wave e...
The traditional wave equation is mostly, if not always, obtained from a system of first order partia...
It is well known that gravitational waves interact in a non-linear way. This makes it difficult to d...