Origin of Th/U variations in chondritic meteorites


Autoria(s): Goreva, Julia S.
Data(s)

2001

Resumo

<p>Isotope dilution thorium and uranium analyses of the Harleton chondrite show a larger scatter than previously observed in equilibrated ordinary chondrites (EOC). The linear correlation of Th/U with 1/U in Harleton (and all EOC data) is produced by variation in the chlorapatite to merrillite mixing ratio. Apatite variations control the U concentrations. Phosphorus variations are compensated by inverse variations in U to preserve the Th/U vs. 1/U correlation. Because the Th/U variations reflect phosphate ampling, a weighted Th/U average should converge to an improved solar system Th/U. We obtain Th/U=3.53 (1<sub>-mean</sub>=0.10), significantly lower and more precise than previous estimates.</p> <p>To test whether apatite also produces Th/U variation in CI and CM chondrites, we performed P analyses on the solutions from leaching experiments of Orgueil and Murchison meteorites.</p> <p>A linear Th/U vs. 1/U correlation in CI can be explained by redistribution of hexavalent U by aqueous fluids into carbonates and sulfates.</p> <p>Unlike CI and EOC, whole rock Th/U variations in CMs are mostly due to Th variations. A Th/U vs. 1/U linear correlation suggested by previous data for CMs is not real. We distinguish 4 components responsible for the whole rock Th/U variations: (1) P and actinide-depleted matrix containing small amounts of U-rich carbonate/sulfate phases (similar to CIs); (2) CAIs and (3) chondrules are major reservoirs for actinides, (4) an easily leachable phase of high Th/U. likely carbonate produced by CAI alteration. Phosphates play a minor role as actinide and P carrier phases in CM chondrites.</p> <p>Using our Th/U and minimum galactic ages from halo globular clusters, we calculate relative supernovae production rates for <sup>232</sup>Th/<sup>238</sup>U and <sup>235</sup>U/<sup>238</sup>U for different models of r-process nucleosynthesis. For uniform galactic production, the beginning of the r-process nucleosynthesis must be less than 13 Gyr. Exponentially decreasing production is also consistent with a 13 Gyr age, but very slow decay times are required (less than 35 Gyr), approaching the uniform production. The 15 Gyr Galaxy requires either a fast initial production growth (infall time constant less than 0.5 Gyr) followed by very low decrease (decay time constant greater than 100 Gyr), or the fastest possible decrease (≈8 Gyr) preceded by slow in fall (≈7.5 Gyr).</p>

Formato

application/pdf

Identificador

http://thesis.library.caltech.edu/8202/1/Goreva_js_2001.pdf

Goreva, Julia S. (2001) Origin of Th/U variations in chondritic meteorites. Dissertation (Ph.D.), California Institute of Technology. http://resolver.caltech.edu/CaltechTHESIS:04252014-150216789 <http://resolver.caltech.edu/CaltechTHESIS:04252014-150216789>

Relação

http://resolver.caltech.edu/CaltechTHESIS:04252014-150216789

http://thesis.library.caltech.edu/8202/

Tipo

Thesis

NonPeerReviewed