Geodesic
Compare a particle method and hydrodynamic approach for
Matematičeskoe modelirovanie, Tome 16 (2004) no. 10, pp. 29-34 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

In this article the brief description of a particle method and hydrodynamic approach for modeling of a gas discharge is given. Compare of the calculation results of two these models produced with experimental data which shows applicability of the given approaches for exposition of processes in gas-discharge plasma will be carried out. Computing features of the given approaches are considered. 
@article{MM_2004_16_10_a2,
     author = {O. V. Datsyuk and A. A. Bakaev and G. N. Tolmachev},
     title = {Compare a particle method and hydrodynamic approach for},
     journal = {Matemati\v{c}eskoe modelirovanie},
     pages = {29--34},
     year = {2004},
     volume = {16},
     number = {10},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/MM_2004_16_10_a2/}
}
TY  - JOUR
AU  - O. V. Datsyuk
AU  - A. A. Bakaev
AU  - G. N. Tolmachev
TI  - Compare a particle method and hydrodynamic approach for
JO  - Matematičeskoe modelirovanie
PY  - 2004
SP  - 29
EP  - 34
VL  - 16
IS  - 10
UR  - http://geodesic.mathdoc.fr/item/MM_2004_16_10_a2/
LA  - ru
ID  - MM_2004_16_10_a2
ER  - 
%0 Journal Article
%A O. V. Datsyuk
%A A. A. Bakaev
%A G. N. Tolmachev
%T Compare a particle method and hydrodynamic approach for
%J Matematičeskoe modelirovanie
%D 2004
%P 29-34
%V 16
%N 10
%U http://geodesic.mathdoc.fr/item/MM_2004_16_10_a2/
%G ru
%F MM_2004_16_10_a2
O. V. Datsyuk; A. A. Bakaev; G. N. Tolmachev. Compare a particle method and hydrodynamic approach for. Matematičeskoe modelirovanie, Tome 16 (2004) no. 10, pp. 29-34. http://geodesic.mathdoc.fr/item/MM_2004_16_10_a2/

[1] Raizer Yu. P., Fizika gazovogo razryada: Ucheb. rukovodstvo, Nauka, Gl. red. fiz.-mat. lit., M., 1987, 592 pp.

[2] Khokni R., Istvud Dzh, Modelirovanie metodom chastits, Mir, M., 1987, 640 pp.

[3] J.-P. Boeuf, “Numerical model of $rf$ glow discharges”, Phys. Rev. A, 36:6 (1987), 2782 | DOI

[4] Sigov Yu. S., Vychislitelnyi eksperiment:most mezhdu proshlym i buduschim fiziki plazmy, Fizmatlit, M., 2001

[5] H. R. Skullerud, “The stochastic computer simulation of ions in a gas subjected to a constant electric field”, J. Phys., D2:1 (1968), 1567–1568

[6] Dzhon, G. Metyuz , Kurtis D. Fink, Chislennye metody. Ispolzovanie $MATHLAB$, 3-e izdanie, per. s angl., Izdatelskii dom “Vilyame”, M., 2001, 720 pp.

[7] D. L. Scharfetter, U. K. Gummel, “Large-signal analysis of a silicon Read diode oscillator”, IEEE Trans. Electron Devices ED, 16 (1969), 64 | DOI

[8] van der Vorst H. A., “BI-CGSTAB: A fast and smoothly converging variant of BI-CG for the solution of nonsymmetric linear systems”, SIAM J. Sci. Stat. Comput., 13:2, March (1992), 631–644 | DOI | MR | Zbl

[9] Granovskii V. L., Elektricheskii tok v gaze. Tom I. Obschie voprosy elektrodinamiki gazov, Gos. izd. tekhniko-teoreticheskoi literatury, M., 1952, 432 pp.