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Anders Scherstén
Researcher at Lund University
Publications - 79
Citations - 3061
Anders Scherstén is an academic researcher from Lund University. The author has contributed to research in topics: Zircon & Archean. The author has an hindex of 26, co-authored 77 publications receiving 2760 citations. Previous affiliations of Anders Scherstén include University of Bristol & University of Gothenburg.
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The remarkable Re-Os chronometer in molybdenite : how and why it works
TL;DR: In this paper, the authors used the Re-Os (rhenium-osmium) chronometer applied to molybdenite (MoS2) to determine the age.
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Hafnium isotope evidence for a transition in the dynamics of continental growth 3.2 Gyr ago
Tomas Næraa,Tomas Næraa,Anders Scherstén,Minik T. Rosing,Anthony I.S. Kemp,Anthony I.S. Kemp,J. E. Hoffmann,Thomas F. Kokfelt,Martin J. Whitehouse +8 more
TL;DR: In situ uranium–lead, hafnium and oxygen isotope data from zircons of basement rocks in southern West Greenland are reported across the critical time period during which modern-like tectonic regimes could have initiated, suggesting a transitional period 3.5–3.2 Gyr ago that involved juvenile crust generation by plate tectonics.
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Re-Os Dating of Low-Level Highly Radiogenic (LLHR) Sulfides: The Harnäs Gold Deposit, Southwest Sweden, Records Continental-Scale Tectonic Events
TL;DR: In this article, the Harnas-Alma-Silvergruvan vein system in southwest Sweden was used to characterize low-level and highly radiogenic sulfides, and the resulting data was best plotted in 187 Re- 187 Os space, much like the approach used for molybdenites.
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Subgrain-scale decoupling of Re and 187Os and assessment of laser ablation ICP-MS spot dating in molybdenite
Holly J. Stein,Anders Scherstén,Anders Scherstén,Anders Scherstén,Judith L. Hannah,R. J. Markey +5 more
TL;DR: In this article, the ages of molybdenite were investigated at the sub-grain (micron) scale, and it was shown that the Re-Os were decoupled from parent 187 Re with time on the micron and larger scale.
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Hf W evidence for rapid differentiation of iron meteorite parent bodies
Anders Scherstén,Anders Scherstén,Tim Elliott,Chris J. Hawkesworth,Sarah Russell,Joseph Masarik +5 more
TL;DR: In this article, high-precision W isotope data on iron meteorites are presented that provide important constraints on the timing of silicate-metal segregation in planetesimals.