EPJ Web of Conferences (Jan 2019)

Theoretical Study on the Operation of the EU/KIT TE34,19-Mode Coaxial-Cavity Gyrotron at 170/204/238 GHz

  • Ruess Tobias,
  • Avramidis Konstantinos,
  • Gantenbein Gerd,
  • Illy Stefan,
  • Ioannidis Zisis,
  • Jin Jianbo,
  • Kalaria Parth,
  • Pagonakis Ioannis Gr.,
  • Ruess Sebastian,
  • Rzesnicki Tomasz,
  • Thumm Manfred,
  • Jelonnek John

DOI
https://doi.org/10.1051/epjconf/201920304014
Journal volume & issue
Vol. 203
p. 04014

Abstract

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The 170 GHz 2 MW TE34,19-mode coaxial-cavity modular short-pulse pre-prototype gyrotron at KIT was recently modified in order to verify the multi-megawatt coaxial-cavity technology at longer pulses. In parallel, theoretical investigations on a possibility to operate the 170 GHz TE34,19-mode coaxial-cavity prototype at multiple frequencies up to 238 GHz have been started, with a goal to find a configuration at which the tube could operate in the KIT FULGOR gyrotron test facility using the new 10.5 T SC magnet. This paper indicates which adjustments have to be made and show the feasibility of the multi-frequency operation. Small modifications at the gyrotron cavity will support an RF output power of more than 2 MW at 170/204 GHz. Furthermore, a new gyrotron launcher has been designed capable of producing a Gaussian microwave beam with a Gaussian mode content of more than 96% at these frequencies.