Ferromagnesian Postperovskite Silicates in the D″ Layer of the Earth

Natural olivine with 12 mol % Fe2 SiO4 and synthetic orthopyroxenes with 20% and 40% FeSiO3 were studied beyond the pressure-temperature conditions of the core-mantle boundary. All samples were found to convert entirely or partially into the CalrO3 postperovskite structure, which was recently report...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 101; no. 45; pp. 15867 - 15869
Main Authors Mao, Wendy L., Shen, Guoyin, Prakapenka, Vitali B., Meng, Yue, Campbell, Andrew J., Heinz, Dion L., Shu, Jinfu, Hemley, Russell J., Mao, Ho-kwang
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 09.11.2004
National Acad Sciences
Subjects
Anvils
Chemical composition
Core mantle boundary
D layer
Earth
Iron
Laser heating
Mantle
Olivine
Oxygen
Physical Sciences
Silica
Silicates
Silicon
Wave diffraction
X ray diffraction
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Summary:Natural olivine with 12 mol % Fe2 SiO4 and synthetic orthopyroxenes with 20% and 40% FeSiO3 were studied beyond the pressure-temperature conditions of the core-mantle boundary. All samples were found to convert entirely or partially into the CalrO3 postperovskite structure, which was recently reported for pure MgSiO3. The incorporation of Fe greatly reduces the pressure needed for the transition and establishes the new phase as the major component of the D″ layer. With the liquid core as an unlimited reservoir of iron, core-mantle reactions could further enrich the iron content in this phase and explain the intriguing seismic signatures observed in the D″ layer.
Bibliography:Author contributions: W.L.M. and H.M. designed research; W.L.M., G.S., V.B.P., Y.M., and A.J.C. performed research; G.S., V.B.P., and Y.M. contributed new reagents/analytic tools; W.L.M. analyzed data; W.L.M., D.L.H., R.J.H., and H.M. wrote the paper; and J.S. prepared samples.
Contributed by Ho-kwang Mao, September 28, 2004
Abbreviations: mw, magnesiowüstite; ppv, postperovskite; pv, perovskite; P, pressure; T, temperature.
To whom correspondence should be addressed at the * address. E-mail: wmao@uchicago.edu.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0407135101