Keywords: تمایز سیارات; carbon isotopes; ureilite; planetary differentiation; volatiles;
مقالات ISI تمایز سیارات (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: تمایز سیارات; planet formation; planetary differentiation; core formation; early Earth; early Venus; geodynamo;
Keywords: تمایز سیارات; meteorites; 184Os; 180W; radioactive decay; planetary differentiation; geochronometer;
Keywords: تمایز سیارات; Earth composition; planetary differentiation; bulk silicate Earth; heterogeneous mantle; heat producing elements; geoneutrinos;
Keywords: تمایز سیارات; Mercury; planetary differentiation; primitive mantle; sulfides; enstatite chondrites;
Constraining compositional proxies for Earth's accretion and core formation through high pressure and high temperature Zn and S metal-silicate partitioning
Keywords: تمایز سیارات; Metal-silicate partitioning; Planetary differentiation; Chondrule accretion; Volatile elements;
The early differentiation of Mars inferred from Hf-W chronometry
Keywords: تمایز سیارات; martian meteorites; Hf-W chronometry; Sm-Nd chronometry; planetary differentiation; magma ocean; crust formation;
Magnesium and chromium isotope evidence for initial melting by radioactive decay of 26Al and late stage impact-melting of the ureilite parent body
Keywords: تمایز سیارات; Ureilites; Mg and Cr isotopes; Planetary differentiation; Impacts;
Silver contents and Cu/Ag ratios in Martian meteorites and the implications for planetary differentiation
Keywords: تمایز سیارات; Mars; Shergottites; Cu/Ag ratio; Core formation; Planetary differentiation;
Planetesimal differentiation revealed by the Hf-W systematics of ureilites
Keywords: تمایز سیارات; Hf-W chronometry; ureilite; primitive achondrite; planetary differentiation; core formation; 26Al decay;
Rhenium-osmium isotope and highly-siderophile-element abundance systematics of angrite meteorites
Keywords: تمایز سیارات; angrites; osmium isotopes; highly-siderophile-elements; planetary differentiation; impact processes; late accretion;
Size of the group IVA iron meteorite core: Constraints from the age and composition of Muonionalusta
Keywords: تمایز سیارات; iron meteorites; planetary differentiation; early Solar System
Oxygen as a light element: A solution to single-stage core formation
Keywords: تمایز سیارات; planetary differentiation; core; magma ocean; siderophile elements; light element; oxygen
Martian meteorite chronology and the evolution of the interior of Mars
Keywords: تمایز سیارات; Mars; SNC meteorites; ALH 84001; Pb–Pb dating; 142Nd; planetary differentiation
Constraints on the depths and temperatures of basaltic magma generation on Earth and other terrestrial planets using new thermobarometers for mafic magmas
Keywords: تمایز سیارات; Thermobarometry; Potential temperature; Partial melting; Basalt; Thermal state; Planetary differentiation
Highly siderophile elements in the Earth, Moon and Mars: Update and implications for planetary accretion and differentiation
Keywords: تمایز سیارات; Highly siderophile elements; Osmium isotopes; Late accretion; Planetary differentiation
The split fate of the early Earth, Mars, Venus, and Moon
Keywords: تمایز سیارات; Planetary differentiation; Gravity; Early hydrosphere; Earth; Mars; Venus; Moon; Plagioclase; Early atmosphere; Magma ocean; Early lifeDifférenciation planétaire; Gravité; Hydrosphère primitive; Terre; Mars; Venus; Plagioclase; Atmosphère première; Océan
Modes of planetary-scale Fe isotope fractionation
Keywords: تمایز سیارات; iron isotopes; solar system; planetary differentiation; crystal fractionation; granite