SECOND-ORDER MULTIGROUP MODEL FOR CALCULATING LOW-ENERGY ELECTRON TRANSPORT IN WEAKLY IONIZED GASES

Bochkov, E. I.

doi:10.7868/S3034637125030078

PII

S30346371S0367292125030078-1

DOI

10.7868/S3034637125030078

Publication type

Article

Status

Published

Authors

E. I. Bochkov

Affiliation: Russian Federal Nuclear Centre—VNIIEF

Volume/ Edition

Volume 51 / Issue number 3

Pages

320-331

Abstract

Proceeding from the Boltzmann kinetic equation for electrons, the system of multigroup equations for the zeroth, first and second moments of the electron distribution function is derived. The system includes equations for the balance of concentration, flux density and momentum flux density of electrons, and it is intended for numerical simulations of transport and kinetics of low-energy electrons in weakly ionized cold plasmas. The results of numerical calculations of electron swarm development in a uniform electric field in neon according to the developed multigroup model are compared with the results obtained by the Monte Carlo method to demonstrate the accuracy of the proposed model.

Keywords

низкоэнергетические электроны транспорт электронов кинетическое уравнение уравнения моментов многогрупповая модель

Date of publication

11.03.2025

Year of publication

2025

Number of purchasers

Views

References

1. Hagelaar G. J. M., Pitchford L.C. // Plasma Sourc. Sci. Techn. 2005. V. 14. P. 722.
2. Бочков Е.И., Бабич Л.П. // Физика плазмы. 2022. Т. 48. С. 276.
3. Бочков Е.И. // Физика плазмы. 2023. Т. 49. С. 381.
4. Бабич Л.П., Куцык И.М. // ТВТ. 1995. Т. 33. С. 191.
5. Бабич Л.П., Кудрявцева М.Л. // ЖЭТФ. 2007. Т. 131. С. 808.
6. Бочков Е.И. // Физика плазмы. 2023. Т. 49. С. 254.
7. Бочков Е.И. // Физика плазмы. 2024. Т. 50. С. 597.
8. Голант В.Е., Жилинский А.П., Сахаров И.Е. Основы физики плазмы. М.: Атомиздат, 1977.
9. Kumar K., Skullerud H.R., Robson R.E. // Australian J. Phys. 1980. V. 33. P. 343.
10. Simonovic I., Bosnjakovic D., Petrovic Z.Lj., White R.D., Dujko S. // European Phys. J. D. 2020. V. 74. P. 63.
11. Бочков Е.И. // Физика плазмы. 2024. Т. 50.
12. Bochkov E.I. // Phys. Plasmas. 2024. V. 31. P. 103503.
13. Holstein T. // Phys. Rev. 1946. V. 70. P. 367.
14. Бабич Л.П. // ЖЭТФ. 2004. Т. 125. С. 808.
15. Нестеренко С.Ю., Рошанпур Ш. // Авиационнокосмическая техника и технология. 2013. №7(104). С. 117.
16. Бочков Е.И., Бабич Л.П., Куцык И.М. // Физика плазмы. 2021. Т. 47. С. 935.

GOST	Bochkov E. SECOND-ORDER MULTIGROUP MODEL FOR CALCULATING LOW-ENERGY ELECTRON TRANSPORT IN WEAKLY IONIZED GASES // Plasma Physics Reports. – 2025. – V. 51. – Issue number 3 C. 320-331 . URL: https://plasmphysras.ru/s30346371s0367292125030078-1/?version_id=120370. DOI: 10.7868/S3034637125030078
MLA	Bochkov, E. I "SECOND-ORDER MULTIGROUP MODEL FOR CALCULATING LOW-ENERGY ELECTRON TRANSPORT IN WEAKLY IONIZED GASES." Plasma Physics Reports. 51.3 (2025).:320-331. DOI: 10.7868/S3034637125030078
APA	Bochkov E. (2025). SECOND-ORDER MULTIGROUP MODEL FOR CALCULATING LOW-ENERGY ELECTRON TRANSPORT IN WEAKLY IONIZED GASES. Plasma Physics Reports. vol. 51, no. 3, pp.320-331 DOI: 10.7868/S3034637125030078

RAS PhysicsФизика плазмы Plasma Physics Reports

SECOND-ORDER MULTIGROUP MODEL FOR CALCULATING LOW-ENERGY ELECTRON TRANSPORT IN WEAKLY IONIZED GASES

You can

References

Индексирование

RAS PhysicsФизика плазмы Plasma Physics Reports

SECOND-ORDER MULTIGROUP MODEL FOR CALCULATING LOW-ENERGY ELECTRON TRANSPORT IN WEAKLY IONIZED GASES

You can

References

Индексирование

Via social network