Physical Review Special Topics. Accelerators and Beams (Nov 2011)

Development of room temperature crossbar-H-mode cavities for proton and ion acceleration in the low to medium beta range

  • G. Clemente,
  • U. Ratzinger,
  • H. Podlech,
  • L. Groening,
  • R. Brodhage,
  • W. Barth

DOI
https://doi.org/10.1103/PhysRevSTAB.14.110101
Journal volume & issue
Vol. 14, no. 11
p. 110101

Abstract

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The crossbar H-mode (CH) cavity is an accelerating structure operated in the H_{21(0)} mode. The robustness of the crossbar geometry allows one to realize room temperature as well as superconducting linac cavities. The shunt impedance characteristics of this structure are attractive to develop proton and heavy ion linacs in the low and medium beta range. A first room temperature eight-cell prototype has proven the feasibility of the crossbar design in terms of mechanical construction, copper plating, and cooling. An innovative rf coupling concept has been developed where two CH cavities are connected by a two gap E_{010}-mode resonator which, at the same time, provides transverse focusing by a quadrupole triplet. The concept has been applied in the design of the new FAIR proton linac and a scaled model of the second cavity of this injector has been built and tested too. The full scale prototype is now under construction at the University of Frankfurt. In this paper, the room temperature CH cavity development as well as the general layout of the FAIR proton injector (70 MeV, 325 MHz, 70 mA) is presented and discussed.