Programs in Physics & Physical Chemistry
|
|
Programs in Physics & Physical Chemistry |
|
| Manuscript Title: Beam-plasma dielectric tensor with Mathematica | ||
| Authors: A. Bret | ||
| Program title: Tensor Mathematica.nb | ||
| Catalogue identifier: ADYT_v1_0 Distribution format: tar.gz | ||
| Journal reference: Comput. Phys. Commun. 176(2007)362 | ||
| Programming language: Mathematica 4.1. | ||
| Computer: Any computer running Mathematica 4.1. Tested on DELL Dimension 5100 and IBM ThinkPad T42. | ||
| Operating system: Windows XP Pro. | ||
| RAM: 7.17 Mbytes | ||
| Keywords: Plasma physics, Dielectric tensor, Fluid equations, Instabilities. | ||
| PACS: 52.35.Qz, 52.35.Hr, 52.50.Gj, 52.57.Kk. | ||
| Classification: 19.2. | ||
Nature of problem: The dielectric tensor of a relativistic beam plasma system may be quite involved to calculate symbolically when considering a magnetized plasma, kinetic pressure, collisions between species, and so on. The present Mathematica Notebook performs the symbolic computation in terms of some usual dimensionless variables. | ||
Solution method: The linearized relativistic fluid equations are directly entered and solved by Mathematica to express the first order expression of the current. This expression is then introduced into a combination of Faraday and Ampère Maxwell's equations to give the dielectric tensor. Some additional manipulations are needed to express the result in terms of the dimensionless variables. | ||
Restrictions: Temperature effects are limited to small, i.e non-relativistic, temperatures. The kinetic counterpart of the present Mathematica Notebook cannot be implemented because Mathematica will usually not compute the required integrals. | ||
Running time: About 1 minute on a Intel Centrino 1.5 Ghz Laptop with 512 Mo of RAM. |
| Disclaimer | ScienceDirect | CPC Journal | CPC | QUB |