Zugriffe | |
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Geosciences | 472 |
Oktober 2023 | November 2023 | Dezember 2023 | Januar 2024 | Februar 2024 | März 2024 | April 2024 | |
---|---|---|---|---|---|---|---|
Geosciences | 25 | 19 | 26 | 23 | 29 | 41 | 63 |
Zugriffe | |
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Replication data for: Planetary impacts: effects of the impact speed on the crater depth | 99 |
Replication Data for: Insights into the formation of silica-rich achondrites from impact melts in Rumuruti-type chondrites. | 96 |
Replication Data for: The American Astronomical Society, find out more The American Astronomical Society, find out more The Institute of Physics, find out more The Institute of Physics, find out more What Factors Affect the Duration and Outgassing of the Terrestrial Magma Ocean? | 79 |
Replication Data for: The American Astronomical Society, find out more The Institute of Physics, find out more Chromium Stable Isotope Panorama of Chondrites and Implications for Earth Early Accretion | 74 |
Replication Data for: Collisional mixing between inner and outer solar system planetesimals inferred from the Nedagolla iron meteorite | 72 |
Mid-infrared spectroscopy of sulfidation reaction products and implications for sulfur on Mercury | 69 |
Replication Data for: Halogen and Cl isotopic systematics in Martian phosphates: Implications for the Cl cycle and surface halogen reservoirs on Mars. | 69 |
Replication Data for: Sulfides and hollows formed on Mercury's surface by reactions with reducing S-rich gases | 67 |
Replication Data for: Are the Moon's NearsideāFarside Asymmetries the Result of a Giant Impact ? | 67 |
Replication Data for: The first main group ureilite with primary plagioclase: A missing link in the differentiation of the ureilite parent body | 66 |
Replication Data for: Impact-related crystallization and modification of small zircons in Apollo 15 and 16 impactites at 4.2 Ga | 65 |
Replication Data for: Onset of solid-state mantle convection and mixing during magma ocean solidification | 65 |
Replication Data for: Nd isotope variation between the Earth–Moon system and enstatite chondrites | 63 |
9baa5018-1936-425f-90f7-a7072dd15e23 | 63 |
Replication Data for: Spurious molybdenum isotope anomalies resulting from non-exponential mass fractionation | 61 |
Replication Data for: A numerical study of thermal and chemical structures at the core-mantle boundary | 60 |
Replication Data for: Slopes of Lunar Crater Size-Frequency Distributions at Copernican-Aged Craters | 57 |
Replication Data for: Age and genetic relationships among CB, CH and CR chondrites | 57 |
Replication Data for: The case for the angrite parent body as the archetypal first-generation planetesimal: Large, reduced and Mg-enriched | 56 |
Replication Data for: Origin of the analytical 183W effect and its implications for tungsten isotope analyses. | 56 |
Februar 2024 | März 2024 | April 2024 | |
---|---|---|---|
Replication Data for: Sulfides and hollows formed on Mercury's surface by reactions with reducing S-rich gases | 0 | 29 | 38 |
Replication Data for: Spurious molybdenum isotope anomalies resulting from non-exponential mass fractionation | 0 | 19 | 42 |
Replication Data for: Slopes of Lunar Crater Size-Frequency Distributions at Copernican-Aged Craters | 0 | 18 | 39 |
Replication Data for: The case for the angrite parent body as the archetypal first-generation planetesimal: Large, reduced and Mg-enriched | 0 | 15 | 41 |
Replication Data for: Origin of the analytical 183W effect and its implications for tungsten isotope analyses. | 0 | 23 | 33 |
Replication Data for: A possible high-temperature origin of the Moon and its geochemical consequences. | 0 | 16 | 35 |
Replication Data for: Overturn of Ilmenite-Bearing Cumulates in a Rheologically Weak Lunar Mantle | 18 | 9 | 16 |
Replication Data for: The effect of target properties on transient crater scaling for simple craters. | 18 | 8 | 15 |
Replication Data for: Characterization of high-priority landing sites for robotic exploration missions in the Apollo basin, Moon | 20 | 6 | 14 |
Replication Data for: Addressing matrix effects for 193 nm excimer LA-ICP-MS analyses of Fe-rich sulfides and a new predictive model. | 17 | 8 | 14 |