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research environment involving several PhD students and postdocs, and strong regional and international connections, with collaborations with the University of Geneva and CERN. Terms of Employment
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This project aims to use laser-cooled beryllium ions to improve antihydrogen experiments in the ALPHA apparatus at CERN. The ALPHA collaboration is world-leading in studies of antihydrogen as a
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The proposed PhD topic is embedded in a highly successful and internationally recognised research program devoted to the study of neutron-deficient odd-mass gold isotopes and key structural phenomena such as
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the opportunity to contribute directly to high-impact research in nuclear structure physics, gain expertise in modern experimental techniques and data analysis methodologies, and become part of an active
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This project aims to improve the precision of antihydrogen spectroscopy in the ALPHA apparatus at CERN. The ALPHA collaboration is world-leading in studies of antihydrogen as a probe of matter and
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. The group operates a center of excellence for composite manufacturing and simulation for detector mechanics and cooling, as well as in-house facilities for the design, development, and construction of silicon
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This project aims to perform laser spectroscopy studies on proton-rich nuclei, in order to investigate the evolution of nuclear structure of these exotic species. At the edges of the nuclear
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atomic-nuclear processes in ultra-low lying nuclear excited states. Details: The project is to be based at the IGISOL facility, JYFL, Jyvaskyla, Finland and ISOLDE, CERN. The research will exploit a
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being delivered to the end-users as a so-called Radioactive Ion Beam (RIB). Successful operating facilities, like ISOLDE at CERN and ISAC at TRIUMF, can produce up to about 1000 different RIBs from up