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Design of Beam Line for Ion Transport at Low Energies and The Ejection of Specific Ions From Electron Beam Brice Cannon † ** Research Advisor (s): Fredrik.

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Presentation on theme: "Design of Beam Line for Ion Transport at Low Energies and The Ejection of Specific Ions From Electron Beam Brice Cannon † ** Research Advisor (s): Fredrik."— Presentation transcript:

1 Design of Beam Line for Ion Transport at Low Energies and The Ejection of Specific Ions From Electron Beam Brice Cannon † ** Research Advisor (s): Fredrik Wenander **, Anna Gustafsson** Supervisor: Alexander Herlert** CERN**,Norfolk State University †

2 Introduction ISOLDE REX-ISOLDE –Beam Line EBIS –RF-Field Conclusion Experiences

3 ISOLDE & REX-ISOLDE

4 Initial Beam Line Ions from REX-EBIS Ions to WITCH Ions from REX-EBIS 2.96m 1.56 m

5 Emittance: Initial Design

6 Final Beam line Ions from REX-EBIS Ions to WITCH Ions from REX-EBIS 1.56 m 2.96m

7 Emittance: Final Design

8 Original vs. Final Design

9 Design of Beam Line for Ion Transport at Low Energies and The Ejection of Specific Ions From Electron Beam Brice Cannon † ** Research Advisor(s): Fredrik Wenander **, Anna Gustafsson** Supervisor: Alexander Herlert** CERN**,Norfolk State University †

10 Electron Beam Ion Source Maximum efficiency is ~25% –Charge state distribution Eject ions from electron beam –Orbit around beam Higher efficiency 1+ xn+ A/q 6+ 4+ 2+ 1+ 4+

11 Electron Beam Potential Direction of Electron Beam -490 V 0 V

12 Results of EBIS RF-Field Angular velocity of 15 rad/µsec RF voltage of 250 V 16 O 10 cm1+ 2+ 4+ 8+

13 Conclusion 100% transmission for beam line to WITCH experiment –Further development of the beam line and construction All components of the EBIS simulation with RF-field are complete individually –Implement the EBIS with RF-field into different program and test

14 Experiences

15 Questions

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