• Title of article

    Modeling of the ElectriCOIL system

  • Author/Authors

    D.L.، Carroll, نويسنده , , J.T.، Verdeyen, نويسنده , , D.M.، King, نويسنده , , B.S.، Woodard, نويسنده , , L.W.، Skorski, نويسنده , , J.W.، Zimmerman, نويسنده , , W.C.، Solomon, نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    -114
  • From page
    115
  • To page
    0
  • Abstract
    Theoretical studies have indicated that sufficient fractions of O/sub 2/(/sup 1/(delta)) may be produced in an electrical discharge that will permit lasing of an electric discharge oxygen-iodine laser (ElectriCOIL) system. Results of those studies along with more recent experimental results show that electric excitation is a very complicated process that must be investigated with advanced diagnostics along with modeling to better understand this highly complex system. A kinetic package appropriate for the ElectriCOIL system is presented and implemented in the detailed electrodynamic GlobalKin model and the Blaze II chemical laser modeling code. A parametric study with the Blaze II model establishes that it may be possible to attain positive gain in the ElectriCOIL system, perhaps even with subsonic flow. The Blaze II model is in reasonable agreement with early gain data. Temperature is a critical issue, especially in the subsonic cases, and thus it appears that supersonic flow will be important for the ElectriCOIL system. Simulations of a supersonic ElectriCOIL system indicate that it may be possible to attain reasonable performance levels, even at low yield levels of 20% or less. In addition, predissociation of the iodine is shown to be very important for the supersonic flow situation.
  • Keywords
    low-temperature co-fired ceramic (LTCC) , Laminated waveguide , millimeter wave , waveguide transition , rectangular waveguide (RWG)
  • Journal title
    IEEE JOURNAL OF QUANTUM ELECTRONICS
  • Serial Year
    2003
  • Journal title
    IEEE JOURNAL OF QUANTUM ELECTRONICS
  • Record number

    87370