Physical Review Accelerators and Beams (Dec 2021)

Ampere-class bright field emission cathode operated at 100  MV/m

  • Mitchell E. Schneider,
  • Benjamin Sims,
  • Emily Jevarjian,
  • Ryo Shinohara,
  • Tanvi Nikhar,
  • Taha Y. Posos,
  • Wanming Liu,
  • John Power,
  • Jiahang Shao,
  • Sergey V. Baryshev

DOI
https://doi.org/10.1103/PhysRevAccelBeams.24.123401
Journal volume & issue
Vol. 24, no. 12
p. 123401

Abstract

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High-current bright sources are needed to power the next generation of compact rf and microwave systems. A major requirement is that such sources could be sustainably operated at high frequencies, well above 1 GHz, and high gradients, well above 100 MV/m. Field emission sources offer simplicity and scalability in a high-frequency era of the injector design, but the output rf cycle charge and high-gradient operation remain a great and largely unaddressed challenge. Here, a field emission cathode based on ultra-nano-crystalline diamond, an efficient planar field emission material, was tested at 100 MV/m in an L-band injector. A very high charge of 38 pC per rf cycle was demonstrated (300 nC per rf pulse corresponding to an rf pulse current of 120 mA). This operating condition revealed a two-dimensional space charge limited emission where the one-dimensional Child-Langmuir limit was surpassed. An injector brightness of 10^{14} A/(rad m)^{2} was estimated for the given operating conditions.