Litcius/Paper detail

Origin of isolated olivine grains in carbonaceous chondrites

Emmanuel Jacquet, Maxime Piralla, Pauline Kersaho, Yves Marrocchi

2020Meteoritics and Planetary Science43 citationsDOIOpen Access PDF

Abstract

Abstract We report microscopic, cathodoluminescence, chemical, and O isotopic measurements of FeO‐poor isolated olivine grains (IOG) in the carbonaceous chondrites Allende (CV3), Northwest Africa 5958 (C2‐ung), Northwest Africa 11086 (CM2‐an), and Allan Hills 77307 (CO3.0). The general petrographic, chemical, and isotopic similarity with bona fide type I chondrules confirms that the IOG derived from them. The concentric CL zoning, reflecting a decrease in refractory elements toward the margins, and frequent rimming by enstatite are taken as evidence of interaction of the IOG with the gas as stand‐alone objects. This indicates that they were splashed out of chondrules when these were still partially molten. CaO‐rich refractory forsterites, which are restricted to ∆ 17 O <−4‰ likely escaped equilibration at lower temperatures because of their large size and possibly quicker quenching. The IOG thus bear witness to frequent collisions in the chondrule‐forming regions.

Topics & Concepts

ChondruleChondriteEnstatiteOlivineMurchison meteoritePetrographyAllende meteoriteGeologyRefractory (planetary science)GeochemistryCarbonaceous chondriteMineralogyNephelineCathodoluminescenceCorundumMeteoriteAstrobiologyMaterials sciencePhysicsLuminescenceOptoelectronicsAstro and Planetary ScienceHigh-pressure geophysics and materialsGeological and Geochemical Analysis