Journal ArticleDOI
The age of the Solar System redefined by the oldest Pb–Pb age of a meteoritic inclusion
Audrey Bouvier,Meenakshi Wadhwa +1 more
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In this paper, a calcium-aluminium-rich inclusion from the Northwest Africa 2364 CV3-group chondritic meteorite is estimated to have formed 4,568.2 million years ago.Abstract:
The age of the Solar System is defined by the formation of the first solid grains in the solar nebula. Pb–Pb age dating of these solids, which were later trapped in a meteorite, indicates that the Solar System is 0.34–1.91 million years older than previously thought. The age of the Solar System can be defined as the time of formation of the first solid grains in the nebular disc surrounding the proto-Sun. This age is estimated by dating calcium–aluminium-rich inclusions in meteorites. These inclusions are considered as the earliest formed solids in the solar nebula. Their formation marks the beginning for several long- and short-lived radiogenic clocks that are used to precisely define the timescales of Solar System events, such as the formation and evolution of planetary bodies1,2,3. Here we present the 207Pb–206Pb isotope systematics in a calcium–aluminium-rich inclusion from the Northwest Africa 2364 CV3-group chondritic meteorite, which indicate that the inclusion formed 4,568.2 million years ago. This age is between 0.3 (refs 4, 5) and 1.9 (refs 1, 6) million years older than previous estimates and is the oldest age obtained for any Solar System object so far. We also determined the 26Al–26Mg model age of this inclusion, and find that it is identical to its absolute Pb–Pb age, implying that the short-lived radionuclide 26Al was homogeneously distributed in the nebular disc surrounding the proto-Sun. From the consistently old ages in the studied inclusion, we conclude that the proto-Sun and the nebular disc formed earlier than previously thought.read more
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Journal ArticleDOI
Magma oceans in the inner solar system
TL;DR: A review of evidence for magma oceans on planetesimals and planets can be found in this article, focusing on the processes of compositional differentiation in the silicate magma ocean, distribution and degassing of volatiles, and cooling.
Journal ArticleDOI
Stellar magnetism: empirical trends with age and rotation
Aline A. Vidotto,Aline A. Vidotto,Scott G. Gregory,Moira Jardine,Jean-François Donati,Pascal Petit,Julien Morin,Colin P. Folsom,Jerome Bouvier,Andrew Collier Cameron,G. A. J. Hussain,Stephen C. Marsden,Ian A. Waite,Rim Fares,Sandra V. Jeffers,J. D. do Nascimento +15 more
TL;DR: In this article, the observed large-scale surface magnetic fields of low-mass stars were reconstructed through Zeeman-Doppler imaging (ZDI), and the results indicated that small and large scale fields could share the same dynamo field generation processes.
Book ChapterDOI
Chondrites and Their Components
Edward Scott,Alexander N. Krot +1 more
TL;DR: In this article, the properties of carbonaceous, ordinary and enstatite chondrites focusing on the most pristine samples are reviewed to establish the chemical, isotopic, and mineralogical properties and origins of their components and to elucidate the asteroidal processes that modified them.
Journal ArticleDOI
U-Pb chronology of the Solar System's oldest solids with variable 238 U/ 235 U
Yuri Amelin,Angela Kaltenbach,Tsuyoshi Iizuka,Claudine H. Stirling,Trevor Ireland,Michail I. Petaev,Stein B. Jacobsen +6 more
TL;DR: In this article, the authors presented the first combined high-precision U and Pb isotopic data for a CAI, and U isotope data for chondrules and whole rock fractions of the Allende meteorite.
Journal ArticleDOI
Water Delivery and Giant Impacts in the 'Grand Tack' Scenario
TL;DR: In this paper, a new model for terrestrial planet formation has explored accretion in a truncated protoplanetary disk, and found that such a configuration is able to reproduce the distribution of mass among the planets in the Solar System, especially the Earth/Mars mass ratio, which earlier simulations have generally not been able to match.
References
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MonographDOI
Meteorites and the early solar system II
TL;DR: In this paper, the geologic diversity of asteroids and other rocky bodies of the solar system are displayed in the enormous variety of textures and mineralogies observed in meteorites, and the composition, chemistry, and mineralogy of primitive meteorites collectively provide evidence for a wide variety of chemical and physical processes.
Journal ArticleDOI
Lead Isotopic Ages of Chondrules and Calcium-Aluminum-Rich Inclusions
TL;DR: The lead-lead isochron age of chondrules in the CR chondrite Acfer 059 is 4564.7 ± 0.6 million years ago, which indicates that CAI- and chondrule-forming events lasted for at least 1.3 My and supports the chronological significance of the 26Al-26Mg systematics.
Journal ArticleDOI
Time Differences in the Formation of Meteorites as Determined from the Ratio of Lead-207 to Lead-206
TL;DR: Measurements of the lead isotopic composition and the uranium, thorium, and lead concentrations in meteorites were made in order to obtain more precise radiometric ages of these members of the solar system.
Journal ArticleDOI
26 Al- 26 Mg and 207 Pb- 206 Pb systematics of Allende CAIs: Canonical solar initial 26 Al/ 27 Al ratio reinstated
Benjamin Jacobsen,Qing-Zhu Yin,Frédéric Moynier,Yuri Amelin,Alexander N. Krot,Kazuhide Nagashima,Ian D. Hutcheon,Herbert Palme +7 more
TL;DR: In this paper, the authors used a multi-collector inductively-coupled plasma mass spectrometry (MC-ICP-MS) measurement of 27 Al/24 Mg ratios and Mg-isotopic compositions of nine whole-rock CAIs (six mineralogically characterized fragments and three micro-drilled inclusions) from the CV carbonaceous chondrite, Allende yield a well-defined 26 Al-26 Mg fossil isochron with an (26 Al/27 Al) 0 of (5.23 ± 0.
Journal ArticleDOI
Homogeneous Distribution of 26Al in the Solar System from the Mg Isotopic Composition of Chondrules
TL;DR: Micrometer-scale, high-precision magnesium (Mg) isotopic analyses demonstrate that Earth, refractory inclusions, and chondrules from primitive meteorites formed from a reservoir in which short-lived aluminum-26 (26Al) and Mg isotopes were homogeneously distributed at ±10%.