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Literature DB >> 23385572

Effect of iron oxidation state on the electrical conductivity of the Earth's lower mantle.

V Potapkin¹, C McCammon, K Glazyrin, A Kantor, I Kupenko, C Prescher, R Sinmyo, G V Smirnov, A I Chumakov, R Rüffer, L Dubrovinsky.

Abstract

Iron can adopt different spin states in the lower mantle. Previous studies indicate that the dominant lower-mantle phase, magnesium silicate perovskite (which contains at least half of its iron as Fe(3+)), undergoes a Fe(3+) high-spin to low-spin transition that has been suggested to cause seismic velocity anomalies and a drop in laboratory-measured electrical conductivity. Here we apply a new synchrotron-based method of Mössbauer spectroscopy and show that Fe(3+) remains in the high-spin state in lower-mantle perovskite at conditions throughout the lower mantle. Electrical conductivity measurements show no conductivity drop in samples with high Fe(3+), suggesting that the conductivity drop observed previously on samples with high Fe(2+) is due to a transition of Fe(2+) to the intermediate-spin state. Correlation of transport and elastic properties of lower-mantle perovskite with electromagnetic and seismic data may provide a new probe of heterogeneity in the lower mantle.

Entities: Chemical Disease

Year: 2013 PMID： 23385572 DOI： 10.1038/ncomms2436

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

9 in total

1. Electronic transitions in perovskite: possible nonconvecting layers in the lower mantle.

Authors: James Badro; Jean-Pascal Rueff; György Vankó; Giulio Monaco; Guillaume Fiquet; François Guyot
Journal: Science Date: 2004-07-16 Impact factor: 47.728

2. Geochemistry. The paradox of mantle redox.

Authors: Catherine McCammon
Journal: Science Date: 2005-05-06 Impact factor: 47.728

3. The electrical conductivity of post-perovskite in Earth's D'' layer.

Authors: Kenji Ohta; Suzue Onoda; Kei Hirose; Ryosuke Sinmyo; Katsuya Shimizu; Nagayoshi Sata; Yasuo Ohishi; Akira Yasuhara
Journal: Science Date: 2008-04-04 Impact factor: 47.728

4. Portable laser-heating system for diamond anvil cells.

Authors: L Dubrovinsky; K Glazyrin; C McCammon; O Narygina; E Greenberg; S Ubelhack; A I Chumakov; S Pascarelli; V Prakapenka; J Bock; N Dubrovinskaia
Journal: J Synchrotron Radiat Date: 2009-10-03 Impact factor: 2.616

5. BX90: a new diamond anvil cell design for X-ray diffraction and optical measurements.

Authors: I Kantor; V Prakapenka; A Kantor; P Dera; A Kurnosov; S Sinogeikin; N Dubrovinskaia; L Dubrovinsky
Journal: Rev Sci Instrum Date: 2012-12 Impact factor: 1.523

6. The 57Fe Synchrotron Mössbauer Source at the ESRF.

Authors: Vasily Potapkin; Aleksandr I Chumakov; Gennadii V Smirnov; Jean Philippe Celse; Rudolf Rüffer; Catherine McCammon; Leonid Dubrovinsky
Journal: J Synchrotron Radiat Date: 2012-05-11 Impact factor: 2.616

7. Spin-state crossover and hyperfine interactions of ferric iron in MgSiO(3) perovskite.

Authors: Han Hsu; Peter Blaha; Matteo Cococcioni; Renata M Wentzcovitch
Journal: Phys Rev Lett Date: 2011-03-14 Impact factor: 9.161

8. Experimental evidence for the existence of iron-rich metal in the Earth's lower mantle.

Authors: Daniel J Frost; Christian Liebske; Falko Langenhorst; Catherine A McCammon; Reidar G Trønnes; David C Rubie
Journal: Nature Date: 2004-03-25 Impact factor: 49.962

9. The effect of iron spin transition on electrical conductivity of (Mg,Fe)O magnesiowüstite.

Authors: Kenji Ohta; Kei Hirose; Suzue Onoda; Katsuya Shimizu
Journal: Proc Jpn Acad Ser B Phys Biol Sci Date: 2007-05 Impact factor: 3.493