期刊
PHYSICS AND CHEMISTRY OF MINERALS
卷 28, 期 3, 页码 143-149出版社
SPRINGER-VERLAG
DOI: 10.1007/s002690000134
关键词
synthetic spinels; ordering versus temperature; constrained least squares
Pavese ct al. (1999) examined cation partitioning vs. temperature in a synthetic spinel of composition (Mg0.70Fe0.233+) Al-1.97 O-4 using structure data obtained from in situ neutron powder diffraction. After imposing assumptions on the site assignment of vacancies and Fe3+, they assigned the remaining cations by applying least-squares minimization to chemical constraints on site-occupancy sums, site-scattering, chemical composition, and thermal expansion of the octahedral site. Their proposed site assignments exhibit a sharp discontinuity in occupancy fractions versus temperature, a necessary consequence of their assumptions on vacancy assignments. In this paper we reexamine the cation partitioning of the same spinel using the constrained least-squares formulation of OccQP (Wright et al. 2000), which optimizes site occupancies without ad hoc assumptions. We obtain strikingly different results, supporting the general view that spinel undergoes transition at similar to 1000 K. For all observed the residuals obtained with the OccQP assignments are lower than those obtained with the Pavese ct al. assignments, in some cases by more than order of magnitude.
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