Auflistung nach Mitwirkenden "Hezel, Dominik C."
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An unusual compound object in Yamato 793408 (H3.2-an): The missing link between compound chondrules and macrochondrules?
Barosch, Jens; Hezel, Dominik C.; Marrocchi, Yves; Gurenko, Andrey; Lenting, Christoph (Meteoritics & Planetary Science, 2020)We found a large (~2 mm) compound object in the primitive Yamato 793408 (H3.2-an) chondrite. It consists mostly of microcrystalline material, similar to chondrule mesostasis, that hosts an intact barred olivine (BO) ... -
Sectioning effects of porphyritic chondrules: Implications for the PP/POP/PO classification and correcting modal abundances of mineralogically zoned chondrules
Barosch, Jens; Hezel, Dominik C.; Sawatzki, Lena; Halbauer, Lucia; Marrocchi, Yves (Meteoritics & Planetary Science, 2020)Mineralogically zoned chondrules are a common chondrule type in chondrites. They consist of olivine cores, surrounded by low-Ca pyroxene rims. By serial sectioning porphyritic chondrules from carbonaceous, ordinary, and ... -
Sustainable research software for high-quality computational research in the Earth System Sciences: Recommendations for universities, funders and the scientific community in Germany
Döll, Petra; Sester, Monika; Feuerhake, Udo; Frahm, Holger; Fritzsch, Bernadette; Hezel, Dominik C.; Kaus, Boris; Kolditz, Olaf; Linxweiler, Jan; Müller Schmied, Hannes; Nyenah, Emmanuel; Risse, Bernjamin; Schielein, Ulrich; Schlauch, Tobias; Streck, Thilo; van den Oord, Gijs (2023)Similar to other research fields, new knowledge in the Earth System Sciences is increasingly produced by computational research. However, the reproducibility of this type of research has been shown to be very limited, and ... -
Tracing the oxygen isotope composition of the upper Earth's atmosphere using cosmic spherules
Pack, Andreas; Höweling, Andres; Hezel, Dominik C.; Stefanak, Maren T.; Beck, Anne-Katrin; Peters, Stefan T. M.; Sengupta, Sukanya; Herwartz, Daniel; Folco, Luigi (Nature communications, 2017-06-01)Molten I-type cosmic spherules formed by heating, oxidation and melting of extraterrestrial Fe,Ni metal alloys. The entire oxygen in these spherules sources from the atmosphere. Therefore, I-type cosmic spherules are ... -
Young magmatism and Si‐rich melts on Mars as documented in the enriched gabbroic shergottite NWA 6963
Lindner, Miles; Hezel, Dominik C.; Gerdes, Axel; Marschall, Horst R.; Brenker, Frank E. (Meteoritics & Planetary Science, 2022-10-17)Enriched shergottites contain interstitial Si‐rich mesostasis; however, it is unclear whether such mesostasis is formed by impact or magmatic processes. We use laser ablation multicollector inductively coupled plasma mass ...