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A cold electron-impact ion source driven by a photo-cathode – New opportunities for the delivery of radioactive molecular beams?

The thick-target ISOL (Isotope mass Separation OnLine) method provides beams of more than 1000 radionuclides of 74 elements. The method is well established for elements with sufficiently high volatility at ca. 2000 °C. To extract non-volatile elements the formation of a volatile molecule is required...

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Detalles Bibliográficos
Autores principales: Ballof, Jochen, Au, Mia, Barbero, Ermanno, Chrysalidis, Katerina, Düllmann, Christoph E., Fedosseev, Valentin, Granados, Eduardo, Heinke, Reinhard, Marsh, Bruce A., Owen, Michael, Rothe, Sebastian, Stora, Thierry, Yakushev, Alexander
Lenguaje:eng
Publicado: 2022
Materias:
Acceso en línea:https://dx.doi.org/10.1088/1742-6596/2244/1/012072
http://cds.cern.ch/record/2824512
Descripción
Sumario:The thick-target ISOL (Isotope mass Separation OnLine) method provides beams of more than 1000 radionuclides of 74 elements. The method is well established for elements with sufficiently high volatility at ca. 2000 °C. To extract non-volatile elements the formation of a volatile molecule is required. While successful in some cases (e.g. carbon or boron), most of these elements are not yet available as ISOL beam. A variety of volatile carrier molecules has been proposed for all elements produced in the target material, but their probability of survival during the extraction and ionization process is often limited by the high temperatures required for isotope diffusion in the thick targets and for ion source operation. While cold target concepts have already been proposed, the normal mode of operation of the typically used Versatile Arc Discharge Ion Source (VADIS) with a hot cathode is not well suited. Here, we report about first measurements with an electron-impact ion source operated at ambient temperature using electrons that were liberated via the photo-electric effect from a copper cathode.