Enviar artigo por via de e-mail Implosion dynamics of a megampere wire-array Z-pinch with an inner low-density foam shell at the Angara-5-1 facility
- Autores: Aleksandrov V.V.1, Bolkhovitinov E.A.2, Volkov G.S.1, Grabovski E.V.1, Gritsuk A.N.1, Medovshchikov S.F.1, Oleinik G.M.1, Rupasov A.A.2, Frolov I.N.1
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Afiliações:
- Troitsk Institute for Innovation and Fusion Research
- Lebedev Physical Institute
- Edição: Volume 42, Nº 12 (2016)
- Páginas: 1091-1100
- Seção: Plasma Dynamics
- URL: https://journal-vniispk.ru/1063-780X/article/view/186033
- DOI: https://doi.org/10.1134/S1063780X16120011
- ID: 186033
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Resumo
The implosion dynamics of a pinch with a highly inhomogeneous initial axial distribution of the load mass was studied experimentally. A cascade array consisting of a double nested tungsten wire array and a coaxial inner cylindrical shell located symmetrically with respect to the high-voltage electrodes was used as a load of the Angara-5-1 high-current generator. The cylindrical foam shell was half as long as the cathode− anode gap, and its diameter was equal to the diameter of the inner wire array. It is shown experimentally that two stages are typical of the implosion dynamics of such a load: the formation of two separate pinches formed as a result of implosion of the wire array near the cathode and anode and the subsequent implosion of the central part of the load containing the cylindrical foam shell. The conditions are determined at which the implosion of the central part of the pinch with the foam cylinder is preceded by intense irradiation of the foam with the soft X-ray (SXR) emission generated by the near-electrode pinches and converting it into the plasma state. Using such a load, which models the main elements of the scheme of a dynamic hohlraum for inertial confinement fusion, it is possible to increase the efficiency of interaction between the outer accelerated plasma sheath and the inner foam shell by preionizing the foam with the SXR emission of the near-electrode pinches.
Sobre autores
V. Aleksandrov
Troitsk Institute for Innovation and Fusion Research
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
E. Bolkhovitinov
Lebedev Physical Institute
Email: volkov@triniti.ru
Rússia, Moscow, 119991
G. Volkov
Troitsk Institute for Innovation and Fusion Research
Autor responsável pela correspondência
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
E. Grabovski
Troitsk Institute for Innovation and Fusion Research
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
A. Gritsuk
Troitsk Institute for Innovation and Fusion Research
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
S. Medovshchikov
Troitsk Institute for Innovation and Fusion Research
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
G. Oleinik
Troitsk Institute for Innovation and Fusion Research
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
A. Rupasov
Lebedev Physical Institute
Email: volkov@triniti.ru
Rússia, Moscow, 119991
I. Frolov
Troitsk Institute for Innovation and Fusion Research
Email: volkov@triniti.ru
Rússia, Troitsk, Moscow, 142190
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