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The Fermilab 805 MHz, 400 MeV Linac

Continued Monitoring of the Conditioning of the Fermilab Linac 805 MHz Cavities*  Elliott McCrory , Fernanda Garcia, Tom Kroc, Al Moretti, Milorad Popovic; Fermilab, Batavia, IL 60510, USA. The Fermilab 805 MHz, 400 MeV Linac. Abstract

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The Fermilab 805 MHz, 400 MeV Linac

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  1. Continued Monitoring of the Conditioning of the Fermilab Linac 805 MHz Cavities* Elliott McCrory, Fernanda Garcia, Tom Kroc, Al Moretti, Milorad Popovic; Fermilab, Batavia, IL 60510, USA The Fermilab 805 MHz, 400 MeV Linac Abstract We have reported at four previous Linac Conferences on the conditioning of the high-gradient accelerating cavities in the Fermilab Linac. Automated measurements of the sparking rate have been recorded since 1994 and are reported here. The sparking rate and the fraction of beam pulses lost to RF faults continue to decline. X-ray data from the cavities suggest a slight worsening of the surfaces. • 201 MHz section, commissioned in 1970 (originally 200 MeV) consisted of nine large “Alvarez” cavities, essentially identical to the linac at Brookhaven Lab. • The 805 MhZ section, replacing the second half of the old Linac, was commissioned in 1993. • These seven new “side-coupled” cavities operate at about 1.4 times the “Kilpatrick Limit”. At the time, there was very little experience with operating cavities at this voltage, and it was thought that sparking might be an issue. A criterion of 1 lost beam pulse per 1000 was set. The initial operation of these cavities was at this level. Median Num. Sparks/Day Raw Sparking Rate Data: 1994-2010 Rate per 30-day interval Module 3 Module 2 Module 4 Module 1 Module 7 Module 5 Module 6 * Work supported by the US Department of Energy, contract # DE-AC02-76CH0-3000.

  2. Lost Beam Pulses/Day Conclusion Measurements suggest that the conditioning of the Fermilab Linac continues to improve or has stabilized, even after 18 years of operation. These measurements are: • Automated detection of cavity sparks • The sparking rate in the Fermilab 805 MHz, 400 MeV Linac has reduced to approximately one cavity spark per hour of RF operation. This is a substantial reduction since 2000: one spark every 17 minutes. • Fraction of beam pulses lost due to cavity sparks • Approximately 2 in 1E5 beam pulses is lost due to a cavity spark—far below the design criterion of 1 in 1000 and an order-of-magnitude decrease from 2001, the first full year of the automated counting of the beam pulses in the Linac. • X-Ray emission • The size of the sites in Module 5 that are emitting x-rays has decreased by a factor of ten over the last decade, but the electric field enhancement factor has increased. If this trend of infinitely improving conditions in the Fermilab Linac ever stops, we hope to be around to report on it at a future Linac conference. X-Rays from Module 5, versus power level Fowler-Nordheim equation for an RF Field that describes enhanced field emission

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