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Title Radioactive boron beams produced by isotope online mass separation at CERN-ISOLDE
Author(s) Ballof, J (CERN ; Mainz U., Inst. Kernchem.) ; Seiffert, C (CERN ; Darmstadt, Tech. U.) ; Crepieux, B (CERN) ; Düllmann, Ch E (Mainz U., Inst. Kernchem. ; Darmstadt, GSI ; Helmholtz Inst., Mainz) ; Delonca, M (CERN) ; Gai, M (Connecticut U. LNS Avery Point Groton) ; Gottberg, A (CERN) ; Kröll, T (Darmstadt, Tech. U.) ; Lica, R (CERN ; Bucharest, IFIN-HH) ; Madurga Flores, M (CERN) ; Martinez Palenzuela, Y (CERN ; Leuven U.) ; Mendonca, T M (CERN) ; Owen, M (CERN) ; Ramos, J P (CERN ; Ecole Polytechnique, Lausanne) ; Rothe, S (CERN) ; Stora, T (CERN) ; Tengblad, O (Madrid, Inst. Estructura Materia) ; Wienholtz, F (CERN ; Greifswald U.)
Publication 2019
Number of pages 11
In: Eur. Phys. J. A 55 (2019) 65
DOI 10.1140/epja/i2019-12719-1
Subject category Nuclear Physics - Experiment
Accelerator/Facility, Experiment CERN ISOLDE
Abstract We report on the development and characterization of the first radioactive boron beams produced by the isotope mass separation online (ISOL) technique at CERN-ISOLDE. Despite the long history of the ISOL technique which exploits thick targets, boron beams have up to now not been available. This is due to the low volatility of elemental boron and its high chemical reactivity which make the definition of an appropriate production target unit difficult. In addition, the short half-lives of all boron radioisotopes complicate tracer release studies. We report here on dedicated offline release studies by neutron capture and alpha detection done with implanted $^{10}$B in prospective target materials, as well as molecule formation and ionization tests, which suggested the use of multiwalled carbon nanotubes (CNT) as target material and injection of sulfur hexafluoride SF$_{6}$ to promote volatile boron fluoride formation. Two target units equipped with an arc discharge electron impact ion source VADIS coupled to a water cooled transfer line to retain non-volatile elements and molecules were subsequently tested online. The measured yield of these first $^{8}$B ISOL beams increases in the series ${}^{8}\mathrm{BF}_{3} < {}^{8}\mathrm{BF} < {}^{8}\mathrm{B} < {}^{8}\mathrm{BF}_{2}$ , reaching a maximum yield of $6.4 \times 10^{4}\ ^{8} \mathrm{BF}_{2}^{+}$ ions per $\mu$C of protons.
Copyright/License publication: © 2019-2024 The Authors (License: CC-BY-4.0)

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 Δημιουργία εγγραφής 2019-09-17, τελευταία τροποποίηση 2022-08-10


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