Physical Review Special Topics. Accelerators and Beams (Apr 2009)

Superconducting linac at Inter-University Accelerator Centre: Operational challenges and solutions

  • S. Ghosh,
  • R. Mehta,
  • G. K. Chowdhury,
  • A. Rai,
  • P. Patra,
  • B. K. Sahu,
  • A. Pandey,
  • D. S. Mathuria,
  • J. Chacko,
  • A. Chowdhury,
  • S. Kar,
  • S. Babu,
  • M. Kumar,
  • S. S. K. Sonti,
  • K. K. Mistry,
  • J. Zacharias,
  • P. N. Prakash,
  • T. S. Datta,
  • A. Mandal,
  • D. Kanjilal,
  • A. Roy

DOI
https://doi.org/10.1103/PhysRevSTAB.12.040101
Journal volume & issue
Vol. 12, no. 4
p. 040101

Abstract

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A superconducting linear accelerator based on niobium quarter wave resonators has recently become operational to boost the energy of the heavy ion beams available from the existing 15 UD (unit doubled) Pelletron accelerator. The niobium resonators typically performed at an accelerating field of 3–6 MV/m at 6 watts of input power in the test cryostat. When they were tested in the linac cryostat, the accelerating fields were drastically reduced and a number of other problems were also encountered. At present, all the problems have been diagnosed and solved. Many design modifications, e.g., in power coupler, mechanical tuner, helium cooling system, etc. were incorporated to solve the problems. A novel method of vibration damping was also implemented to reduce the effect of microphonics on the resonators. Finally, the accelerated beam through linac was delivered to conduct experiments.