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ISAC and ARIEL: The TRIUMF Radioactive Beam Facilities and the Scientific Program

  • Jens Dilling
  • Reiner Krücken
  • Lia Merminga

Table of contents

  1. Front Matter
    Pages i-vii
  2. J. Dilling, R. Krücken, G. Ball
    Pages 1-8
  3. I. Bylinskii, M. K. Craddock
    Pages 9-16
  4. M. Dombsky, P. Kunz
    Pages 17-23
  5. Pierre G. Bricault, Friedhelm Ames, Marik Dombsky, Peter Kunz, Jens Lassen
    Pages 25-49
  6. K. Jayamanna
    Pages 51-62
  7. F. Ames, R. Baartman, P. Bricault, K. Jayamanna
    Pages 63-67
  8. Richard Baartman
    Pages 69-77
  9. R. E. Laxdal, M. Marchetto
    Pages 79-97
  10. M. Marchetto, R. E. Laxdal
    Pages 99-109
  11. J. Dilling, R. Krücken
    Pages 111-114
  12. J. A. Behr, A. Gorelov, K. P. Jackson, M. R. Pearson, M. Anholm, T. Kong et al.
    Pages 115-120
  13. A. B. Garnsworthy, P. E. Garrett
    Pages 121-125
  14. C. E. Svensson, A. B. Garnsworthy
    Pages 127-132
  15. A. A. Kwiatkowski, C. Andreoiu, J. C. Bale, T. Brunner, A. Chaudhuri, U. Chowdhury et al.
    Pages 143-155
  16. A. Lennarz, T. Brunner, C. Andreoiu, A. Chaudhuri, U. Chowdhury, P. Delheij et al.
    Pages 157-164
  17. C. D. P. Levy, M. R. Pearson, R. F. Kiefl, E. Mané, G. D. Morris, A. Voss
    Pages 165-172
  18. Gerald D. Morris
    Pages 173-182
  19. T. Shimoda, K. Tajiri, K. Kura, A. Odahara, M. Suga, Y. Hirayama et al.
    Pages 183-191
  20. J. Murata, H. Baba, J. A. Behr, Y. Hirayama, T. Iguri, M. Ikeda et al.
    Pages 193-196
  21. E. R. Tardiff, E. T. Rand, G. C. Bal, T. E. Chupp, A. B. Garnsworthy, P. Garrett et al.
    Pages 197-206
  22. A. M. Laird, L. Buchmann, T. Davinson, for the TUDA and TACTIC collaborations
    Pages 207-214
  23. B. Davids
    Pages 215-218
  24. Jennifer Fallis
    Pages 219-224
  25. B. Davids
    Pages 225-228
  26. Patrick St-Onge, Jérôme Gauthier, Barton Wallace, René Roy
    Pages 229-234
  27. G. Hackman, C. E. Svensson
    Pages 241-251
  28. J. Dilling, R. Krücken, L. Merminga
    Pages 253-262
  29. M. Marchetto, R. A. Baartman, R. E. Laxdal
    Pages 275-282
  30. Back Matter
    Pages 283-284

About this book

Introduction

The TRIUMF Isotope Separator and Accelerator (ISAC) facility uses the isotope separation on-line (ISOL) technique to produce rare-isotope beams (RIB). The ISOL system consists of a primary production beam, a target/ion source, a mass separator, and beam transport system. The rare isotopes produced during the interaction of the proton beam with the target nucleus are stopped in the bulk of the target material. They diffuse inside the target material matrix to the surface of the grain and then effuse to the ion source where they are ionized to form an ion beam that can be separated by mass and then guided to the experimental facilities. Previously published in the journal Hyperfine Interactions.

Keywords

Dragon Detector TRIUMF Isotope Accelerator Isotope Separation On-line Isotope Separator Low Energy Beam Transport Meson Facility Canada Rare Isotope Beam Subatomic Physics Superconducting Accelerator Titan Detector TRIUMF Trinat Detector TRIUMF

Editors and affiliations

  • Jens Dilling
    • 1
  • Reiner Krücken
    • 1
  • Lia Merminga
    • 1
  1. 1.TRIUMFVancouverCanada

Bibliographic information

  • DOI https://doi.org/10.1007/978-94-007-7963-1
  • Copyright Information Springer Science+Business Media Dordrecht 2014
  • Publisher Name Springer, Dordrecht
  • eBook Packages Physics and Astronomy
  • Print ISBN 978-94-007-7962-4
  • Online ISBN 978-94-007-7963-1
  • Buy this book on publisher's site