Self-organization of high current-carrying plasmas : dynamics of forming toroidal plasmoids in plasma columns and tubes

Fadeev, V. M.; Khautiev, E. Y.; Vikhrev, V. V.; Nikulin, V. Y.; Tarakanov, V. P.

Artykuł - szczegóły

Tytuł artykułu

Self-organization of high current-carrying plasmas : dynamics of forming toroidal plasmoids in plasma columns and tubes

Autorzy

Fadeev V. M. , Khautiev E. Y. , Vikhrev V. V. , Nikulin V. Y. , Tarakanov V. P.

Treść / Zawartość

Pełne teksty:

Self-organization of high current-carrying plasmas.pdf

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Warianty tytułu

Konferencja

International Workshop on Dense Magnetised Plasmas IWDMP’2000 (12-14.10.2000 ; Kudowa Zdrój, Poland)

Języki publikacji

Abstrakty

In the report the dynamics of the Toroidal Plasmoids formation in a Cavity of the Neck (TPCN) of plasma columns and tubes is described. The study was carried out within the MHD (magnetohydrodynamics) frames and by using the particles method. It was shown that in the fast forming neck of plasma pinch, some observed orthogonal to the current structures could be H-filaments (at the equilibrium state they are θ-pinches). These filaments are supported due to the interaction of the induced (secondary) current with magnetic field of the Z-pinch.

Słowa kluczowe

plasma dynamics plasma focus plasma structures self-organization Z-pinch θ-pinch

Wydawca

Institute of Nuclear Chemistry and Technology

Czasopismo

Nukleonika

Rocznik

2001

Tom

Vol. 46, suppl. 1

Strony

13--16

Opis fizyczny

Bibliogr. 11 poz., rys.

Twórcy

autor

Fadeev V. M.

NPP VNII Electro-Mechanics, 101000, P.B. 496, Moscow, Russia

autor

Khautiev E. Y.

Institute of Nuclear Fusion of RNC “Kurchatov Institute”, Kurchatov sq. 1, Moscow, Russia

autor

Vikhrev V. V.

Institute of Nuclear Fusion of RNC “Kurchatov Institute”, Kurchatov sq. 1, Moscow, Russia

autor

Nikulin V. Y.

vnik@sci.lebedev.ru

P.N. Lebedev Physical Institute, 117924, Leninsky pr. 53, Moscow, Russia, Tel. +7095/ 1326931, Fax: +7095/ 1357995

autor

Tarakanov V. P.

Institute of High Temperatures, 127412, Izhorskaya 13/19, Moscow, Russia

Bibliografia

1. Bilbao L, Bruzzone H, Nikulin VYa, Rager J-P (1980) Plasma dynamics during neutron production in the Frascati 1 MJ plasma focus device. Preprint Centro di Frascati 80.11, Frascati
2. Fadeev VM, Khautiev EYu, Nikulin VYa, Tsybenko SP, Vikhrev VV (2000) Self-organization of high current-carrying plasmas: toroidal plasmoid in neck of pinch discharge. Czech J Phys, Suppl 50;3:107–201
3. Fadeev VM, Surzhikov ST (2000) Numerical investigations of Htype plasma structures in the frame of MHD. Vol. 662. Preprint of Institute of Applied Mechanics, Moscow
4. Gribkov VA, Dubrovsky AV, Isakov AI et al. (1980) Dynamics of plasma focus and the investigation of the influence on its high power laser radiation. Trudy FIAN 127:32–61
5. Gribkov VA, Nikulin VYa, Fadeev VM, Khodataev YaK (1993) Self-organizing current-plasma structures in a plasma focus. Journal of Moscow Physical Society 3:75–84
6. Haas R, Krompholz H, Michel L et al. (1982) Regular density structures in the plasma focus. Phys Lett A 88;8:403–404
7. Komarov NN, Fadeev VM (1961) Plasma in self-contained magnetic field. JETP 41;2:528–533
8. Kvartskhava IF, Kervalidze KN, Gvaladze YuS (1960) Instability of a induction-pinch. JETP 38;5:1641–1643
9. Kvartskhava IF, Kervalidze KN, Gvaladze Yu S, Zukakishvili GG (1965) Space periodical structures of plasma in the fast high current discharges. Nucl Fusion 5:181–191
10. Tarakanov VP (1994) User’s manuel for code KARAT. Berkeley Research Associates, Inc., Springfield, VA
11. Vikhrev VV, Ivanov VV, Rozanova GA (1993) Development of Sausage-type instability in a Z-pinch plasma column. Nucl Fusion 33;2:311–321

Typ dokumentu

Bibliografia

Identyfikator YADDA

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