AB $$_{2}$$ O $$_{4}$$ Compounds at High Pressures
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Publisher
Springer Berlin Heidelberg
Link
http://link.springer.com/content/pdf/10.1007/978-3-642-40367-5_2
Reference75 articles.
1. Finger LW, Hazen RM, Hofmeister AM (1986) High-pressure crystal-chemistry of spinel (MgAl $$_2{\rm O}_4$$ ) and Magnetite (Fe $$_{3}{{\rm O}}_{4})$$ - Comparisons with silicate spinels. Phys Chem Minerals 13:215–220
2. Shim SH, Duffy TS, Shen G (2001) The post-spinel transformation in Mg $$_{2}{\rm{SiO}}_{4}$$ and its relation to the 660-km seismic discontinuity. Nature 411:571–574
3. Hazen RM, Downs T (eds) (2000) Reviews in mineralogy, vol 41. Mineralogical Society of America, Washington D.C. ISBN 0-939950-53-7
4. Errandonea D, Kumar RS, Manjón FJ, Ursaki VV, Rusu EV (2009) Post-spinel transformations and equation of state in ZnGa $$_{2}{\rm{O}}_{4}$$ : Determination at high pressure by in situ X-ray diffraction. Phys Rev B 79(6):024103
5. Shim SH, Duffy TS, Shen G (2001) Stability and structure of MgSiO $$_{3}$$ perovskite to 2300-kilometer depth in Earth’s mantle. Science 293:2437–2440
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