PLoS ONE (Jan 2021)

Concept and performance evaluation of two 3 GHz buncher units optimizing the dose rate of a novel preclinical proton minibeam irradiation facility.

  • Michael Mayerhofer,
  • Andreas Bergmaier,
  • Gerd Datzmann,
  • Hermann Hagn,
  • Ricardo Helm,
  • Johannes Mitteneder,
  • Ralf Schubert,
  • Luigi Picardi,
  • Paolo Nenzi,
  • Concetta Ronsivalle,
  • Hans-Friedrich Wirth,
  • Günther Dollinger

DOI
https://doi.org/10.1371/journal.pone.0258477
Journal volume & issue
Vol. 16, no. 10
p. e0258477

Abstract

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To demonstrate the large potential of proton minibeam radiotherapy (pMBRT) as a new method to treat tumor diseases, a preclinical proton minibeam radiation facility was designed. It is based on a tandem Van-de-Graaff accelerator providing a 16 MeV proton beam and a 3 GHz linac post-accelerator (designs: AVO-ADAM S.A, Geneva, Switzerland and ENEA, Frascati, Italy). To enhance the transmission of the tandem beam through the post-accelerator by a factor of 3, two drift tube buncher units were designed and constructed: A brazed 5-gap structure (adapted SCDTL tank of the TOP-IMPLART project (ENEA)) and a non-brazed low budget 4-gap structure. Both are made of copper. The performance of the two differently manufactured units was evaluated using a 16 MeV tandem accelerator beam and a Q3D magnetic spectrograph. Both buncher units achieve the required summed voltage amplitude of 42 kV and amplitude stability at a power feed of less than 800 W.