Progress Report of the 3rd Generation ECR Ion Source Fabrication
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Progress Report of the 3rd Generation ECR Ion Source Fabrication
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Progress Report of the 3rd Generation ECR Ion Source Fabrication M.A. Leitner, S. A. Lundgren, C.M. Lyneis, C.E. Taylor, D.C. Wutte Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, CA 94720, USA ABSTRACT Recent progress in the construction of the 3rd Generation ECR ion source at the 88-Inch Cyclotron in Berkeley is reported. Test results of a full scale prototype superconducting magnet structure, which was described in the last ECR Ion Source Workshop, lead to an improved coil design for the 3rd Generation ECR ion source. Solenoids of the new design have been fabricated and exceeded the design field values without quench. The new sextupole coils are currently being wound and will be tested this summer. This magnet structure consists of three solenoids and six race track coils with iron poles forming the sextupole. It is described in the report along with the structural support and coil winding specifications. The coils are designed to generate a 4T axial mirror field at injection and 3T at extraction and a radial sextupole field of 2.4 T at the plasma chamber wall. The high axial magnetic field of the 3rd Generation ECR ion source influences ion beam extraction considerably and we have initiated simulations of the extraction and beam transport system in order to enhance transmission through the injection beam line of the cyclotron.
1. INTRODUCTION With the construction of the superconducting 3rd generation ECR ion source we expect to further enhance the performance of the 88-Inch Cyclotron by providing more intense highly charged heavy-ion beams. Higher beam intensities will be required especially for low cross-section experiments for heavyelement research using the new "Berkeley Gas-filled Spectrometer" (BGS) now on line at the cyclotron. On the other hand, an increase of the usable mass range up to uranium is desirable for nuclear structure research using state-of-the-art gamma-ray detectors such as "Gammasphere".
Mechanical layout of the 3rd generation ECR ion source.
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Cutout drawing of the superconducting coil configuration of the 3rd generation ECR ion source.
Figure 1 shows the mechanical layout of the ion source. The plasma chamber is made out of a doublewalled aluminum tube with water cooling-channels in between. Three or more off-axis microwave feeds as well as ovens and a biased disk are inserted from the injection spool. Also shown are the end walls of the iron shielding-yoke, which is designed to reduce the magnetic stray-field outside the yoke to
