• DocumentCode
    1098958
  • Title

    Comparison between experiment and computer modeling for simple MILO configurations

  • Author

    Ashby, David E T F ; Eastwood, James W. ; Allen, J. ; Hawkins, K.C. ; Lea, L.M.

  • Author_Institution
    Culham Lab., AEA Technol., Abingdon, UK
  • Volume
    23
  • Issue
    6
  • fYear
    1995
  • fDate
    12/1/1995 12:00:00 AM
  • Firstpage
    959
  • Lastpage
    969
  • Abstract
    The MILO is a crossed-field HPM, high power microwave source which uses its self-generated magnetic field to cut off electron flow to the anode. A detailed comparison of experimental results and a computer simulation has been made for a number of simple axisymmetric MILO structures designed to operate at 1 GHz. The structures were built from demountable components which enabled the number of cavities and their dimensions to be rapidly altered. Measurements were made of the fluctuating magnetic fields at the end of each cavity. The amplitude and depth of RF modulation of the magnetic fields, although repeatable, changed drastically from one configuration to the next; these parameters were compared with predictions from VIPER, a 2-D electromagnetic PIC code. Good quantitative agreement was obtained between experiments and the simulation in most situations, although, late in the current pulse, after about 100 ns, the level of RF began to decay; a phenomenon which became more pronounced as the applied voltage was increased. The decay was attributed to plasma formation on the cavity vanes and subsequent electron emission; this explanation was verified by computer modeling electron emission and by using vanes make from polished stainless steel in place of aluminum vanes
  • Keywords
    electron emission; electronic engineering computing; microwave generation; microwave oscillators; plasma simulation; slow wave structures; 1 GHz; RF modulation; VIPER 2-D electromagnetic PIC code; anomalous behaviour; axisymmetric MILO structures; cavity ends; cavity vanes; computer simulation; crossed-field; demountable components; electron emission; fluctuating magnetic fields; high power microwave source; magnetically insulated line oscillator; plasma formation; polished stainless steel vanes; self-generated magnetic field; slow wave structures; stable operation; unsteady behaviour; Amplitude modulation; Anodes; Blades; Computer simulation; Electromagnetic measurements; Electron emission; Magnetic field measurement; Magnetic fields; Magnetic modulators; Radio frequency;
  • fLanguage
    English
  • Journal_Title
    Plasma Science, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0093-3813
  • Type

    jour

  • DOI
    10.1109/27.476484
  • Filename
    476484