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Science 25 January 1991:
Vol. 251. no. 4992, pp. 410 - 413
DOI: 10.1126/science.251.4992.410
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Articles

Phase Transition and Thermal Expansion of MgSiO3 Perovskite

YANBIN WANG 1, DONALD J. WEIDNER 1, ROBERT C. LIEBERMANN 1, XING LIU 1, JAIDONG KO 1, MICHAEL T. VAUGHAN 1, YUSHENG ZHAO 1, AMIR YEGANEH-HAERI 1, and ROSEMARY E. G. PACALO 1

1 Mineral Physics Institute and Department of Earth and Space Sciences, State University of New York at Stony Brook, Stony Brook, NY 11794

Results from in situ x-ray diffraction experiments with a DIA-type cubic anvil apparatus (SAM 85) reveal that MgSiO3 perovskite transforms from the orthorhombic Pbnm symmetry to another perovskite-type structure above 600 kelvin (K) at pressures of 7.3 gigapascals; the apparent volume increase across the transition is 0.7%. Unit-cell volume increased linearly with temperature, both below (1.44 x 10-5 K–1) and above (1.55 x 10–5 K–1) the transition. These results indicate that the physical properties measured on the Pbnm phase should be used with great caution because they may not be applicable to the earth's lower mantle. A density analysis based on the new data yields an iron content of 10.4 weight percent for a pyrolite composition under conditions corresponding to the lower mantle. All current equation-of-state data are compatible with constant chemical composition in the upper and lower mantle; thus, these data imply that a chemically layered mantle is unnecessary, and whole-mantle convection is possible.

Submitted on October 16, 1990
Accepted on December 11, 1990


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Science. ISSN 0036-8075 (print), 1095-9203 (online)