Litcius/Paper detail

Condensation of cometary silicate dust using an induction thermal plasma system

Tae‐Hee Kim, Aki Takigawa, A. Tsuchiyama, Junya Matsuno, Satomi Enju, Hiroaki Kawano, Hisashi Komaki

2021Astronomy and Astrophysics11 citationsDOIOpen Access PDF

Abstract

Glass with embedded metal and sulfides (GEMS) is a major component of chondritic porous interplanetary dust particles. Although GEMS is one of the most primitive components in the Solar System, its formation process and conditions have not been constrained. We performed condensation experiments of gases in the system of Mg–Si–O (MgSiO 3 composition) and of the S-free CI chondritic composition (Si–Mg–Fe–Na–Al–Ca–Ni–O system) in induction thermal plasma equipment. Amorphous Mg-silicate particles condensed in the experiments of the Mg–Si–O system, and their grain size distribution depended on the experimental conditions (mainly partial pressure of SiO). In the CI chondritic composition experiments, irregularly shaped amorphous silicate particles of less than a few hundred nanometers embedded with multiple Fe–Ni nanoparticles of ≤20 nm were successfully synthesized. These characteristics are very similar to those of GEMS, except for the presence of FeSi instead of sulfide grains. We propose that the condensation of amorphous silicate grains smaller than a few tens of nanometers and with metallic cores, followed by coagulation, could be the precursor material that forms GEMS prior to sulfidation.

Topics & Concepts

SilicateCondensationChondriteAmorphous solidInterplanetary dust cloudMaterials scienceSulfideNanometreSulfidationChemical engineeringGrain sizeMineralogySolar SystemChemistryAstrobiologyMetallurgyPhysicsMeteoriteComposite materialSulfurOrganic chemistryThermodynamicsEngineeringAstro and Planetary ScienceLaser-induced spectroscopy and plasmaDiamond and Carbon-based Materials Research