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Opportunities and limitations of in-gas-cell laser spectroscopy of the heaviest elements with RADRISRaeder, Sebastian; Anđelić, Brankica; Auler, Julian; Block, Michael; Chauveau, Pierre; Chhetri, Premaditya; Claessens, Arno; de Roubin, Antoine; Düllmann, Christoph E.; Ferrer, Rafael; Giacoppo, Francesca; Gutiérrez, Manuel J.; Heßberger, Fritz-Peter; Ivandikov, Fedor; Kaja, Magdalena; Kaleja, Oliver; Kieck, Tom; Kim, Eunkang; Kraemer, Sandro; Laatiaoui, Mustapha; Lantis, Jeremy; Lecesne, Nathalie; Moore, Iain D.; Mistry, Andrew; Münzberg, Danny; Nothhelfer, Steven; Raggio, Andrea; Rey-Herme, Emmanuel; Rickert, Elisabeth; Romans, Jekabs; Romero-Romero, Elisa; Stemmler, Matou; Vandebrouck, Marine; Van Duppen, Piet; Walther, Thomas; Warbinek, Jessica; Wendt, Klaus
Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms, 08/2023, Letnik: 541Journal Article
The radiation detection resonance ionization spectroscopy (RADRIS) technique enables laser spectroscopic investigations of the heaviest elements which are produced in atom-at-a-time quantities from fusion-evaporation reactions. To achieve a high efficiency, laser spectroscopy is performed in a buffer-gas environment used to thermalize and stop the high-energy evaporation residues behind the velocity filter SHIP. The required cyclic measurement procedure in combination with the applied filament collection for neutralization as well as confinement of the stopped ions and subsequent pulse-heat desorption constrains the applicability of the technique. Here, some of these limitations and also opportunities that arise from this unique measurement setup will be evaluated.
