• DocumentCode
    2287667
  • Title

    New developments in pulsed power technology and associated electron beam transport mechanisms at the United Kingdom Atomic Weapons Establishment

  • Author

    Birrell, A.R. ; Edwards, R.D. ; Goldsack, T.J. ; Sinclair, M.A.

  • Author_Institution
    Dept. of Hydrodynamics, Atomic Weapons Establ., Reading, UK
  • fYear
    2000
  • fDate
    2000
  • Abstract
    The Pulsed Power Group at AWE is interested in the generation of small, intense, multi-megavolt X-ray sources for radiographic applications. For this paper, research has been carried out into electron beam transport and focusing studies on one of our single pulse forming line flash X-ray machines. Experiments were undertaken on E Minor to improve the radiographic spot size generated by our `paraxial diode´. This is a novel anode/cathode assembly designed to produce a small diameter electron beam focused onto a high Z target. Electrons are propagated through a gas-filled cone such that their electrostatic repulsive and magnetic attractive forces are almost cancelled. The cone´s length and gas pressure were initially optimized and then specific gas species applied to the drift cone. Helium gas improved spot size stability whilst the addition of a `secondary cell´ to increase the neutralization of the electron beam´s self-electric forces yielded a 30% improvement in measured spot size
  • Keywords
    X-ray apparatus; E Minor; United Kingdom Atomic Weapons Establishment; anode assembly; cathode assembly; cone length; electron beam transport mechanisms; electrons propagation; electrostatic repulsive forces; gas pressure; gas-filled cone; high Z target; magnetic attractive forces; multi-megavolt X-ray sources; paraxial diode; pulse forming line flash X-ray machines; pulsed power technology; radiographic applications; radiographic spot size; self-electric forces neutralisation; small diameter electron beam; spot size stability improvement;
  • fLanguage
    English
  • Publisher
    iet
  • Conference_Titel
    Pulsed Power 2000 (Digest No. 2000/053), IEE Symposium
  • Conference_Location
    London
  • Type

    conf

  • DOI
    10.1049/ic:20000290
  • Filename
    859567