Paper |
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Page |
TUPLT168 |
SNS Beam Commisioning Status
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1524 |
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- S. Henderson, A.V. Aleksandrov, S. Assadi, W. Blokland, C. Chu, S.M. Cousineau, V.V. Danilov, G.W. Dodson, J. Galambos, M. Giannella, D.-O. Jeon, S. Kim, L.V. Kravchuk, M.P. Stockli, E. Tanke, R.F. Welton, T.L. Williams
ORNL/SNS, Oak Ridge, Tennessee
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The Spallation Neutron Source accelerator systems will provide a 1 GeV, 1.44 MW proton beam to a liquid mercury target for neutron production. The accelerator complex consists of an H- injector capable of producing 38 mA peak current, a 1 GeV linear accelerator, an accumulator ring and associated transport lines. The linear accelerator consists of a Drift Tube Linac, a Coupled-Cavity Linac and a Superconducting Linac which provide 1.5 mA average current to the accumulator ring. The staged beam commissioning of the accelerator complex is proceeding as component installation progresses. In three separate beam commissioning runs, the H- injector and Drift Tube Linac tanks 1-3 have been commissioned at ORNL. Several important performance goals have been achieved, namely 38 mA peak beam current, 1 msec beam pulse length and 1 mA average beam current. Results and status of the beam commissioning program will be presented.
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THPLT166 |
Development of Injection and Optics Control Applications for the SNS Accumulator Ring
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2846 |
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- S.M. Cousineau, C. Chu, J. Galambos, S. Henderson, T. Pelaia, M. Plum
ORNL/SNS, Oak Ridge, Tennessee
- A.L. Leahman
WSSU, Winston-Salem, North Carolina
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A large suite of physics software applications is being developed to facilitate beam measurement and control in the SNS accumulator ring. Two such applications are an injection control and measurement application, and a ring optics control application. The injection application will handle measurement and control of the linac beam position and angle at the stripper foil, and will be used to measure the twiss parameters of the linac beam at the foil. The optics control application will provide knobs for machine working point, chromaticity, arc phase advance, and harmonic correction. Both applications are written within the standard in-house XAL framework. Presented here are first versions of the applications, along with plans for future development and testing.
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THPLT168 |
XAL - The SNS Application Programming Infrastructure
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2852 |
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- J. Galambos, C. Chu, S.M. Cousineau, T. Pelaia, A. Shishlo
ORNL/SNS, Oak Ridge, Tennessee
- C. Allen, C. McChesney
LANL/LANSCE, Los Alamos, New Mexico
- W.-D. Klotz
ESRF, Grenoble
- I. Kriznar, A. Zupanc
Cosylab, Ljubljana
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A Java programming infrastructure for high level applications has been developed and is being used for the Spallation Neutron Source (SNS). The framework provides a hierarchal view of the accelerator and hides much of the underlying control system details. The hierarchy is database configured, facilitating sharing of applications across different beamlines, shielding the programmer from detailed knowledge of signal names, and allowing wholesale updating of applications. An important aspect of the framework is an online model, which can be run for design values, live machine values or user selected tuning values. Sample applications will be shown.
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