An expansion of a density field or particle distribution in basis functions that solve the Poisson equation both provides an easily parallelized N-body force algorithm and simplifies perturbation theories. The expansion converges quickly and provides the highest computational advantage if the lowest order potential-density pair in the basis looks like the unperturbed galaxy or stellar system. Unfortunately, there are only a handful of such bases in the literature that limit this advantage. This paper presents an algorithm for deriving these bases to match a wide variety of galaxy models. The method is based on efficient numerical solution of the Sturm-Liouville equation and can be used for any geometry with a separable Laplacian. Two c...
We describe the design of several portable and efficient parallel implementations of adaptive N-body...
Using N-body simulations, we study the structures induced on a galactic disc by repeated flybys of a...
We apply a basis function expansion method to create a time-evolving den-sity/potential approximatio...
An expansion of a density field or particle distribution in basis functions that solve the Poisson e...
A new parallel Self Mesh-Adaptive N-body method based on approximate inverses is proposed. The schem...
We present a new and fast method to find the potential center of an N-body distribution. The method ...
Since their introduction in 1972 by Clutton-Brock, so-called biorthogonal basis sets have become a p...
This report describes a modification of orthogonal function Poisson solver for n body simulations th...
Aims. The orbital structure of galaxies is strongly influenced by the accuracy of the force calculat...
The stability of a galaxy model is most easily assessed through N-body simulation. Particle-mesh cod...
A hybrid parallel self mesh-adaptive N-body method based on approximate inverses and multiprojection...
We provide a novel and efficient algorithm for computing accelerations in theperiodic large-N-body p...
AbstractSpecial high-accuracy direct force summation N-body algorithms and their relevance for the s...
Tormen and Bertschinger have presented an algorithm which allows the dynamic range of N-body simulat...
Efficient expansions of the gravitational field of (dark) haloes have two main uses in the modelling...
We describe the design of several portable and efficient parallel implementations of adaptive N-body...
Using N-body simulations, we study the structures induced on a galactic disc by repeated flybys of a...
We apply a basis function expansion method to create a time-evolving den-sity/potential approximatio...
An expansion of a density field or particle distribution in basis functions that solve the Poisson e...
A new parallel Self Mesh-Adaptive N-body method based on approximate inverses is proposed. The schem...
We present a new and fast method to find the potential center of an N-body distribution. The method ...
Since their introduction in 1972 by Clutton-Brock, so-called biorthogonal basis sets have become a p...
This report describes a modification of orthogonal function Poisson solver for n body simulations th...
Aims. The orbital structure of galaxies is strongly influenced by the accuracy of the force calculat...
The stability of a galaxy model is most easily assessed through N-body simulation. Particle-mesh cod...
A hybrid parallel self mesh-adaptive N-body method based on approximate inverses and multiprojection...
We provide a novel and efficient algorithm for computing accelerations in theperiodic large-N-body p...
AbstractSpecial high-accuracy direct force summation N-body algorithms and their relevance for the s...
Tormen and Bertschinger have presented an algorithm which allows the dynamic range of N-body simulat...
Efficient expansions of the gravitational field of (dark) haloes have two main uses in the modelling...
We describe the design of several portable and efficient parallel implementations of adaptive N-body...
Using N-body simulations, we study the structures induced on a galactic disc by repeated flybys of a...
We apply a basis function expansion method to create a time-evolving den-sity/potential approximatio...