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The SNS superconducting linac system

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C. Rode
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Abstract:

The SNS has adopted superconducting RF technology for the high-energy end of its linac. The design uses cavities of /spl beta/=0.61 and 0.81 to span the energy region fro...Show More

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Abstract:

The SNS has adopted superconducting RF technology for the high-energy end of its linac. The design uses cavities of /spl beta/=0.61 and 0.81 to span the energy region from 186 MeV up to a maximum of 1.3 GeV. Thirty-three of the lower /spl beta/ cavities are contained in 11 cryomodules, and there could be as many as 21 additional cryomodules, each containing four of the higher /spl beta/ cavities, to reach the maximum energy. The design uses a peak surface gradient of 35 MV/m. Each cavity will be driven by a 550 kW klystron. Cryomodules will be connected to the refrigerator by a pair of "tee" shape transfer lines. The refrigerator will produce 120 g/sec of refrigeration at 2.1 K, 15 g/sec of liquefaction at 4.5 K, and 8,300 W of 50 K shield refrigeration.
Published in: PACS2001. Proceedings of the 2001 Particle Accelerator Conference (Cat. No.01CH37268)
Date of Conference: 18-22 June 2001
Date Added to IEEE Xplore: 07 August 2002
Print ISBN:0-7803-7191-7
DOI: 10.1109/PAC.2001.987585
Conference Location: Chicago, IL, USA
References is not available for this document.
Contents

1 Background

The SNS line item project start was Oct-98. In the quarter FY99, two workshops were held to explore the option of changing to a Superconducting Linac; this led to a CDR in Nov-99 [1]. The primary requirement for the 1 GeV Linac was a 52-months (later increased to 56- months) schedule including Research & Development, design, fabrication, installation, and checkout. SNS Accelerator Scientific Advisory Committee endorsed the change in Jan-00 and it was then formally reviewed and endorsed by DOE in Mar-00 at the Semi-Annual Review.

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