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Petelin, M. I.

Paper Title Page
TUPPH032 Development of Powerful FEMs for X, Ka and W Bands for Physical and Industrial Applications 390
 
  • M. Einat
    CJS, Ariel
  • N. S. Ginzburg, N. Yu. Peskov, M. I. Petelin
    IAP/RAS, Nizhny Novgorod
  • A. Gover, Y. Socol
    University of Tel-Aviv, Faculty of Engineering, Tel-Aviv
  • A. Kaminsky, S. Sedykh
    JINR, Dubna, Moscow Region
  • J. Lucas
    University of Liverpool, Liverpool
  
  FEMs are among the main sources of powerful microwave pulses from X to W-bands. Interest to such sources is caused by the large number of potential physical and industrial applications, requiring a wide variety of the radiation parameters. The new generation of the accelerators (SLAC, CERN) requires sources of ~100 MW pulse RF power at 30-38 GHz with a narrow spectrum. Material processing stations require kW-level average power. Alternatively, spectroscopic and biological experiments require lower power but for a specific frequency spectrum. The possibility to develop such sources is being studied at Tel-Aviv University, IAP RAS, JINR and The University of Liverpool within the framework of the INTAS collaboration project. Three successful FEM experiments have been carried out:
  1. Electrostatic-accelerator driven 70-130 GHz Tandem-FEM with kW-level pulse power (Tel-Aviv University.)
  2. Linac-driven 30-GHz FEM-oscillator with pulse RF power of ~ 20 MW (JINR + IAP RAS)
  3. Sub-relativistic e-beam industrial FEM tunable over X-band with output power up 1 kW (The University of Liverpool).
The presentation summarizes the progress in the development of FEMs and their applications.