The origin of GEMS in IDPs as deduced from microstructural evolution of amorphous silicates with annealing

Details The origin of GEMS in IDPs as deduced from microstructural evolution of amorphous silicates with annealing The origin of GEMS in IDPs as deduced from microstructural evolution of amorphous silicates with annealing

2006-02-03

arxiv.org/abs/astro-ph/0602079v1

Astronomy and Astrophysics

Astrophysics

4 pages, 2 figures. Accepted for publication A&A Letter to the Editor

Scientific paper

10.1051/0004-6361:200600002

We present laboratory studies of the micro-structural evolution of an amorphous ferro-magnesian silicate, of olivine composition, following thermal annealing under vacuum. Annealing under vacuum was performed at temperatures ranging from 870 to 1020 K. After annealing spheroidal metallic nano-particles (2-50 nm) are found within the silicate films. We interpret this microstructure in terms of a reduction of the initial amorphous silicate FeO component, because of the carbon-rich partial pressure in the furnace due to pumping mechanism. Annealing in a controlled oxygen-rich atmosphere confirms this interpretation. The observed microstructures closely resemble those of the GEMS (Glass with Embedded Metal and Sulphides) found in chondritic IDPs (Interplanetary Dust Particles). Since IDPs contain abundant carbonaceous matter, a solid-state reduction reaction may have occurred during heating in the hot inner regions of the proto-solar disc. Related to this, the presence of forsterite grains grown from the amorphous precursor material clearly demonstrates that condensation from gaseous species is not required to explain the occurrence of forsterite around young protostars and in comets. Forsterite grains in these environments can be formed directly in the solid phase by thermal annealing of amorphous ferro-magnesian silicates under reducing conditions.

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