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WEO3C05 |
Radiation Effect Modeling at Intensity Frontier: Status and Uncertainties |
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- N.V. Mokhov
Fermilab, Batavia, USA
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Funding: Work supported by Fermi Research Alliance, LLC, under contract No. DE-AC02-07CH11359 with the U.S. Department of Energy
The next generation of accelerators for Mega-Watt proton, electron and heavy-ion beams, such as Project X, ESS and FAIR projects, puts unprecedented requirements on the predictive power and accuracy of the codes used to simulate particle interactions with accelerator components and targets. Status of the codes used by the community is described in the following categories: particle and nuclide production, electromagnetic interactions, instantaneous, transient and accumulated energy deposition effects, radiation damage and radiation shielding. Uncertainties in the code predictions are estimated in each of these categories. The needs for further code developments and for experimental data are identified.
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Slides WEO3C05 [2.315 MB]
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| FRO1A03 |
Accelerator System Design, Injection, Extraction and Beam-Material Interaction: Working Group C Summary Report |
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- N.V. Mokhov
Fermilab, Batavia, USA
- D. Li
LBNL, Berkeley, California, USA
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Working Group C summary:The performance of high beam power accelerators is strongly dependent on appropriate injection, acceleration and extraction system designs as well as on the way interactions of the beam with machine components are handled. The experience of the previous ICFA High-Brightness Beam workshops has proven that it is quite beneficial to combine analyses and discussion of these issues in one group, WG-C at this Workshop. A broad range of topics was presented and discussed in twenty talks at four WG-C sessions as well as at two joint WGA/C and WG-B/C sessions. Highlights from these talks, outstanding issues along with plans and proposals for future work are briefly described.
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Slides FRO1A03 [4.907 MB]
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