Paper |
Title |
Page |
MPPT033 |
Development of a Superconducting Helical Undulator for a Polarised Positron Source
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2295 |
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- Y. Ivanyushenkov, F.S. Carr
CCLRC/RAL/ASTeC, Chilton, Didcot, Oxon
- D.P. Barber
DESY, Hamburg
- E. Baynham, T.W. Bradshaw, J. Rochford
CCLRC/RAL, Chilton, Didcot, Oxon
- J.A. Clarke, O.B. Malyshev, D.J. Scott, B.J.A. Shepherd
CCLRC/DL/ASTeC, Daresbury, Warrington, Cheshire
- P. Cooke, J.B. Dainton, T. Greenshaw
Liverpool University, Science Faculty, Liverpool
- G.A. Moortgat-Pick
Durham University, Durham
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A method of producing a polarised positron beam from e+e- pair production in a target by circularly polarised ?-radiation is being investigated. Polarised photons are to be generated by the passage of a high energy electron beam (250 GeV as anticipated in the International Linear Collider - ILC) through a helical undulator. For production of 20 MeV photons, an undulator with a period of 14 mm, a bore of approximately 4 mm and magnetic field on axis of 0.75 T is required. First prototypes have been constructed using both superconducting and permanent magnet technologies which are capable of producing the necessary magnetic field configuration in the undulator. This paper details the design, construction techniques and field measurement results of the first superconducting prototype and compares the results with simulation.
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TPPP022 |
The eRHIC Ring-Ring Collider Design
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1766 |
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- F. Wang, M. Farkhondeh, W.A. Franklin, W. Graves, R. Milner, C. Tschalaer, D. Wang, A. Zolfaghari, T. Zwart, J. van der Laan
MIT, Middleton, Massachusetts
- D.P. Barber
DESY, Hamburg
- J. Beebe-Wang, A. Deshpande, V. Litvinenko, W.W. MacKay, C. Montag, S. Ozaki, B. Parker, S. Peggs, V. Ptitsyn, T. Roser, S. Tepikian, D. Trbojevic
BNL, Upton, Long Island, New York
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The eRHIC ring-ring collider is the main design option of the future lepton-ion collider at Brookhaven National Laboratory. We report the revisions of the ring-ring collider design features to the baseline design presented in the eRHIC Zeroth Design Report (ZDR). These revisions have been made during the past year. They include changes of the interaction region which are required from the modifications in the design of the main detector. They also include changes in the lepton storage ring for high current operations as a result of better understandings of beam-beam interaction effects. The updated collider luminosity and beam parameters also take into account a more accurate picture of current and future operational aspects of RHIC.
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