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DESIGN OF THE JLC/NLC RDDS STRUCTURE USING PARALLEL EIGENSOLVER Omega3P

Technical Report ·
DOI:https://doi.org/10.2172/784729· OSTI ID:784729
 [1]
  1. SLAC
+ Show Author Affiliations
The complexity of the Round Damped Detuned Structure (RDDS) for the JLC/NLC main linac is driven by the considerations of rf efficiency and dipole wakefield suppression. As a time and cost saving measure for the JLC/NLC, the dimensions of the 3D RDDS cell are being determined through computer modeling to within fabrication precision so that no tuning may be needed once the structures are assembled. The tolerances on the frequency errors for the RDDS structure are about one MHz for the fundamental mode and a few MHz for the dipole modes. At the X-band frequency, these correspond to errors of a micron level on the major cell dimensions. Such a level of resolution requires highly accurate field solvers and vast amount of computer resources. A parallel finite-element eigensolver Omega3P was developed at SLAC that runs on massively parallel computers such as the Cray T3E at NERSC. The code was applied in the design of the RDDS cell dimensions that are accurate to within fabrication precision. We will present the numerical approach of using these codes to determine the RDDS dimensions and compare the numerical predictions with the cold test measurements on RDDS prototypes that are diamond-turned using these dimensions.
Research Organization:
Stanford Linear Accelerator Center, Menlo Park, CA (US)
Sponsoring Organization:
USDOE Office of Energy Research (ER) (US)
DOE Contract Number:
AC03-76SF00515
OSTI ID:
784729
Report Number(s):
SLAC-PUB-8647
Country of Publication:
United States
Language:
English

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Related Subjects

43 PARTICLE ACCELERATORS
COMPUTER-AIDED DESIGN
DAMPING
FINITE ELEMENT METHOD
LINEAR ACCELERATORS
O CODES
SPATIAL RESOLUTION
TUNING