| Paper |
Title |
Page |
| TUPAN064 |
Use of Solidified Gas Target to Laser Ion Source
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1535 |
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- J. Tamura
RLNR, Tokyo
- T. Kanesue
Kyushu University, Department of Applied Quantum Physics and Nuclear Engineering, Fukuoka
- M. Okamura
BNL, Upton, Long Island, New York
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We examined a laser produced neon plasma as part of a future laser ion source. The ion source is capable of generating highly ionized particles and high intensity beams by irradiating a solid target with a pulsed laser. Rare gases, which are in gas state at room temperature, need to be cooled to solid targets for laser irradiation. We generated solid neon targets by equipping our laser ion source chamber with a cryogenic cooler. This method will generate high current rare gas beams.
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| THPAN033 |
Design Study of the Dipole Magnet for the RHIC EBIS High Energy Transport Line
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3301 |
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- T. Kanesue
Kyushu University, Department of Applied Quantum Physics and Nuclear Engineering, Fukuoka
- M. Okamura, D. Raparia, J. Ritter
BNL, Upton, Long Island, New York
- J. Tamura
RLNR, Tokyo
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The design studies of the dipole magnet for EBIS HEBT line is proceeding. The RHIC EBIS is a new high current highly charged heavy ion preinjector for RHIC. The dipole magnet discussed in this paper will be used to guide the beam to existing heavy ion injection line to Booster. A total of 145 degrees bend is provided by two identical dipole magnets with a slit between these magnets to pass only intended charge state ions. Also this magnet has a hole in the side wall to pass the beam from the existing Tandem Van de Graaff. The performance of this magnet calculated by TOSCA and the results of the particle tracking calculation are described.
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