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The 10 um band in amorphous MgSiO3: the influence of medium-range structure, defects and thermal processing

DOI: 10.1051/0004-6361/201219356 DOI Help

Authors: Stephen Thompson (Diamond Light Source) , Julia Parker (Diamond Light Source) , Chiu Tang (Diamond Light Source)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Astronomy & Astrophysics

State: Published (Approved)
Published: July 2012
Diamond Proposal Number(s): 1185

Abstract: Context. Variations in the 10 ?m amorphous silicate band profile between different environments have been variously attributed to differences in composition, grain processing or macroscopic constitution (e.g. compact versus aggregate grains). However the relationship with mineralogical structure has remained poorly defined. Aims. The relationship between the 10 ?m band and medium-range (~2–20 Å) structure is investigated. Methods. Synchrotron X-ray scattering, Fourier transform infrared and Raman spectroscopy are used to relate changes in medium-range structure to changes in the 10 ?m band profile for amorphous MgSiO3 annealed at temperatures leading up to crystallisation. Results. Raman and X-ray data show a build up of strain within the silicate network, which is released between ~400–550 °C, causing a relaxation of both the Si-O-Si bond angle and Si-O bond length. Decomposing the 10 ?m band at each temperature step shows SiO3 is the initially dominant component and increases in proportion as other species become incorporated into the silicate structure. However at ~400 °C the proportion of SiO3 decreases as species with greater numbers of non-bridging oxygens form. The coincidence with strain release implies a breakup of larger tetrahedral structures. Conclusions. We identify a correspondence between the spectral response at 10 ?m of amorphous MgSiO3 and the evolution of its structural state at medium-range distances. The dependence of the 10 ?m band on medium-range structure may account for the hitherto poor correlation between composition and band behaviour, variations in the 10 ?m band observed in other silicates of similar compositions, or, between observed bands in different astronomical settings.

Journal Keywords: Astrophysics; Cosmic Dust; Amorphous Silicates; Medium-Range Structure

Subject Areas: Physics, Environment, Materials

Instruments: I11-High Resolution Powder Diffraction

Added On: 07/08/2012 13:48

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