2022
DOI: 10.5194/gchron-4-65-2022
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In situ-produced cosmogenic krypton in zircon and its potential for Earth surface applications

Abstract: Abstract. Analysis of cosmogenic nuclides produced in surface rocks and sediments is a valuable tool for assessing the rates of processes and the timing of events that shaped the Earth surface. The various nuclides that are used have specific advantages and limitations that depend on the time range over which they are useful, the type of material they are produced in and not least the feasibility of the analytical effort. Anticipating novel applications in Earth surface sciences, we develop in situ-produced te… Show more

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Cited by 3 publications
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“…The first report of cosmogenic noble gases in terrestrial rocks was by Srinivasan (1976), who detected excesses of the lightest (and rarest) Xe isotopes in barites from South Africa and Australia. However, this remained the only report of cosmogenic heavy noble gases in terrestrial samples until Dunai et al (2022) detected cosmogenic Kr in zircons from a suite of surface rocks. Much more convenient to analyse in terrestrial samples are the cosmogenic contributions to the two lighest noble gases He and Ne.…”
Section: Cosmogenic Noble Gases and Radionuclides In Geomorphologymentioning
confidence: 99%
“…The first report of cosmogenic noble gases in terrestrial rocks was by Srinivasan (1976), who detected excesses of the lightest (and rarest) Xe isotopes in barites from South Africa and Australia. However, this remained the only report of cosmogenic heavy noble gases in terrestrial samples until Dunai et al (2022) detected cosmogenic Kr in zircons from a suite of surface rocks. Much more convenient to analyse in terrestrial samples are the cosmogenic contributions to the two lighest noble gases He and Ne.…”
Section: Cosmogenic Noble Gases and Radionuclides In Geomorphologymentioning
confidence: 99%