| Paper | Title | Page |
|---|
| TUP36 | A New Electropolishing System at ANL for Superconducting Quarter-Wave Resonators | 213 |
| | - S. M. Gerbick, M. P. Kelly, J. D. Fuerst
ANL
| |
| | A new electropolishing (EP) system at Argonne
National Laboratory has been used with six quarter-wave
resonators to be installed in the ATLAS superconducting
ion linac. This energy upgrade (7 QWR's, 1 HWR) will
increase the output energy of the ATLAS 68 cavity array
by ~30%. These cavities are the first to be processed in
the new Superconducting Cavity Surface Processing
Facility (SCSPF) built jointly by Argonne National
Laboratory and Fermi National Accelerator Laboratory.
This EP system reduces costs by electropolishing each
cavity as only two major subassemblies prior to the final
electron-beam closure weld. The uniformity of the
polishing is improved through the use of a custom rotating
cathode that also stirs the acid over the entire length of the
cavity, minimizing temperature gradients in the
electrolyte. | |
| TUP75 | Progress on Cavity Fabrication for the ATLAS Energy Upgrade | 331 |
| | - J. D. Fuerst, K. W. Shepard, M. P. Kelly, S. M. Gerbick, Z. A. Conway, G. P. Zinkann
ANL
| |
| | An accelerator improvement project has been
underway for several years to increase the energy of the
ATLAS heavy ion linac at ANL. A new cryomodule
containing drift-tube-loaded superconducting cavities is
nearing the end of construction, with seven new cavities
complete and ready for clean assembly into the cryostat.
We describe the present status of the project, focusing
particularly on cavity fabrication. Several cost saving
techniques suitable for multi-unit production have been
used, including electric discharge machining (EDM) part
trimming and multi-part electron beam weld (EBW)
fixturing. Subsystem fabrication including couplers, slow
tuners, and VCX fast tuners is also described as are the
clean processing techniques used for particle-free
assembly. | |
| WE205 | Electro-mechanical properties of spoke-loaded superconducting cavities | 404 |
| | - Z. A. Conway, J. D. Fuerst, M. P. Kelly, K. W. Shepard
ANL - G. K. Davis, J. Delayen
TJNAF
| |
| | This paper presents experimental data characterizing
the electro-mechanical properties of superconducting
spoke-loaded cavities developed for high-intensity ionlinac
applications, such as the cw ANL Advanced Exotic
Beams Laboratory (AEBL) driver linac and the pulsed
FNAL High Intensity Neutrino Source (HINS, now
project X) proton driver linac. High-gradient cw
operation at 4.2 K can produce violent boiling in the
liquid helium coolant causing microphonic frequency
noise. A spoke cavity designed to minimize the effects of
helium pressure on RF eigenfrequency, the total
microphonic induced RF frequency variations, were found
to be on the level of the phase noise in the reference
oscillator. To determine the pulsed cavity RF
performance, the Lorentz transfer function was measured
and used to predict the dynamic detuning in pulsed
operation. There is good agreement between the
predicted fit and the measured data, demonstrating the
utility of the Lorentz transfer function, which can
completely characterize the dynamics of the coupling
between the mechanical cavity structure and the cavity RF
field due to the Lorentz force. | |
 | Slides(PDF) | |