Detail publikace

A simple numerical modeling EHD particles test

Originální název

A simple numerical modeling EHD particles test

Anglický název

A simple numerical modeling EHD particles test

Jazyk

en

Originální abstrakt

The article describes a test of numerical model of the electron beam according to present knowledge of references. The basic configuration of the electron beam was verified in Institute of Scientific Instruments Academy of Sciences of the Czech Republic experimentally. We prepared the numerical model which is based on the particle theory. Actually, it respects classical Electrodynamics Material Wave Theory (MWT). Numerical results were evaluated. The second model was prepared in respect to theory of wave packet (Louis de Broglie) and solved again. Results of both models were the same in their quality, we evaluated electric field intensity E on theelectron impact area, and they corresponded with results from experiments.

Anglický abstrakt

The article describes a test of numerical model of the electron beam according to present knowledge of references. The basic configuration of the electron beam was verified in Institute of Scientific Instruments Academy of Sciences of the Czech Republic experimentally. We prepared the numerical model which is based on the particle theory. Actually, it respects classical Electrodynamics Material Wave Theory (MWT). Numerical results were evaluated. The second model was prepared in respect to theory of wave packet (Louis de Broglie) and solved again. Results of both models were the same in their quality, we evaluated electric field intensity E on theelectron impact area, and they corresponded with results from experiments.

BibTex


@inproceedings{BUT25598,
  author="Karel {Bartušek} and Pavel {Fiala}",
  title="A simple numerical modeling EHD particles test",
  annote="The article describes a test of numerical model of the electron beam according to present knowledge of references. The basic configuration of the electron beam was verified in
Institute of Scientific Instruments Academy of Sciences of the Czech Republic experimentally. We prepared the numerical model which is based on the particle theory. Actually, it respects classical Electrodynamics Material Wave Theory (MWT). Numerical results were evaluated. The second model was prepared in respect to theory of wave packet (Louis de Broglie) and solved again. Results of both models were the same in their quality, we evaluated electric field intensity E on theelectron impact area, and they corresponded with results from experiments.",
  booktitle="15. Ansys Users Meeting",
  chapter="25598",
  howpublished="print",
  year="2007",
  month="october",
  pages="1--6",
  type="conference paper"
}