| Paper |
Title |
Page |
| MOPP036 |
Dark Current Model for ILC Main Linac
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625 |
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- N. Solyak, N. V. Mokhov, G. V. Romanov
Fermilab, Batavia, Illinois
- Y. I. Eidelman
BINP SB RAS, Novosibirsk
- W. M. Tam
IUCF, Bloomington, Indiana
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In the ILC Main Linac the dark current electrons, generated in SRF cavity can be accelerated to hundreds of MeV before being kicked out by quadrupoles and thus will originate electromagnetic cascade showers in the surrounding materials. Some of the shower secondaries can return back into vacuum and re-accelerated again. The results of simulation of the dark current dynamics and energy deposition along the linac are discussed in paper.
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| MOPP090 |
Incorporating RF into a Muon Helical Cooling Channel
|
760 |
| |
- S. A. Kahn, M. Alsharo'a, R. P. Johnson
Muons, Inc, Batavia
- D. R. Broemmelsiek, A. Jansson, V. Kashikhin, V. S. Kashikhin, A. L. Klebaner, G. F. Kuznetsov, G. V. Romanov, A. V. Shemyakin, D. Sun, K. Yonehara, A. V. Zlobin
Fermilab, Batavia, Illinois
- L. Thorndahl
CERN, Geneva
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A helical cooling channel (HCC) consisting of a pressurized gas absorber imbedded in a magnetic channel that provides solenoidal, helical dipole and helical quadrupole fields has shown considerable promise in providing six-dimensional cooling for muon beams. The energy lost by muons traversing the gas absorber needs to be replaced by inserting RF cavities into the lattice. Replacing the substantial muon energy losses using RF cavities with reasonable gradients will require a significant fraction of the channel length be devoted to RF. However, to provide the maximum phase space cooling and minimal muon losses, the helical channel should have a short period and length. In this paper we shall examine three approaches to include RF cavities into the HCC lattice: - Use higher frequency cavities that can be placed inside the magnetic channel,
- Interleave cavities between magnetic coil rings, and
- Place banks of RF cavities between segments of HCC channels.
Each of these approaches has positive and negative features that need to be evaluated in selecting the proper concept for including RF into the HCC system.
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