• DocumentCode
    1672346
  • Title

    Topological structure of electrical currents and magnetic surfaces in multi-wire S-pinch

  • Author

    Volkov, Nikolay B. ; Golub, T.A. ; Spielman, R.B. ; Gondarenko, N.A.

  • Author_Institution
    Inst. of Electrophys., Ekaterinburg, Russia
  • fYear
    1998
  • Firstpage
    319
  • Abstract
    Summary form only given. A multi-wire S-pinch, represented by a liner of hourglass-type surface with wires turned over the surface, is proposed to use as an effective source of X-ray radiation. Various configurations of design, corresponding to certain topological structure of electrical currents in a load, are considered. Advantages of multi-wire S-pinch compared to conventional Z-pinch loads are: a) axial magnetic field promoting mitigation of Rayleigh-Taylor instabilities is created naturally by means of turning wires; b) more efficient plasma compression; c) initial load curvature and axial magnetic field results in the azimuthal Lorentz force, which causes twisting of plasma column over the least cross section where rotation velocity is zero. The twisting of plasma column provides an additional stabilizing effect on plasma surface in a long-length wave perturbation region and also results in energy concentration in the least cross section due to reconnection of magnetic lines and localization of hot spot in a load center. Results of the theoretical analysis of topological structure of electrical currents and magnetic surfaces in multi-wire S-pinches with various load curvature and number of wires will be discussed.
  • Keywords
    pinch effect; plasma instability; plasma transport processes; topology; Rayleigh-Taylor instabilities; X-ray radiation; Z-pinch loads; axial magnetic field; azimuthal Lorentz force; electrical currents; hot spot localization; hourglass-type surface; initial load curvature; liner; load center; load curvature; long-length wave perturbation region; magnetic line reconnection; magnetic surfaces; multi-wire S-pinch; plasma column; plasma compression; rotation velocity; stabilizing effect; topological structure; turning wires; Energy measurement; Energy resolution; Laboratories; Magnetic field measurement; Plasma waves; Plasma x-ray sources; Power generation; Spatial resolution; Spectroscopy; Wires;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Plasma Science, 1998. 25th Anniversary. IEEE Conference Record - Abstracts. 1998 IEEE International on
  • Conference_Location
    Raleigh, NC, USA
  • ISSN
    0730-9244
  • Print_ISBN
    0-7803-4792-7
  • Type

    conf

  • DOI
    10.1109/PLASMA.1998.677951
  • Filename
    677951