Akira Shimojuku scite author profile

[1] The electrical conductivity of olivine and its high-pressure polymorphs with various iron contents [X Fe = Fe/(Fe + Mg) = 0.1, 0.2, 0.3, 0.5, 0.7 and 1.0] was measured over a wide range of pressure (P) and temperature (T) conditions covering the stability field of olivine, wadsleyite and ringwoodite in a Kawai-type multianvil apparatus. The pressure was determined using in situ X-ray diffraction of MgO as a pressure marker in SPring 8. Molybdenum electrodes were used so that oxygen fugacity is similar to that for the iron-wüstite buffer. The transition from low-pressure phase to high-pressure phase led to an increase of conductivity. In the stability field of each phase, the electrical conductivity slightly increased with increasing pressure at a constant temperature, suggesting a negative activation volume. The conductivity increased with increasing total iron content for each phase. All electrical conductivity data fit the formula for electrical conductivity s = s 0 X Fe exp{À[DE 0 À aX Fe 1/3 + P(DV 0 À bX Fe )]/kT}, where s 0 is the pre-exponential term, DE 0 and DV 0 are the activation energy and the activation volume at very low total iron concentration, respectively, and k is the Boltzmann constant. The activation energy decreased with increasing total Fe content in olivine and ringwoodite. Dependence of the activation energy on the total Fe content suggests that the dominant mechanism of charge transport is Fe 2+ -Fe 3+ hopping (small polaron). The activation volume for small polaron conduction in olivine and its high-pressure polymorphs tends to decrease with total Fe content. For olivine with low Fe content, the activation volume for small polaron conduction still is negative and very small. Assuming constant Fe content (X Fe = 0.1) and oxygen buffer condition, the conductivity will increase with depth mainly due to the increase of the temperature along the mantle adiabat.Citation: Yoshino, T., A. Shimojuku, S. Shan, X. Guo, D. Yamazaki, E. Ito, Y. Higo, and K. Funakoshi (2012), Effect of temperature, pressure and iron content on the electrical conductivity of olivine and its high-pressure polymorphs,

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Electrical conductivity of albite–(quartz)–water and albite–water–NaCl systems and its implication to the high conductivity anomalies in the continental crust

Guo

Yoshino

Shimojuku

2015

Earth and Planetary Science Letters

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Electrical conductivity of brine-bearing quartzite at 1 GPa: implications for fluid content and salinity of the crust

2014

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The electrical conductivity of brine-bearing quartzite with fluid fractions of 0.19 to 0.30 and salinity of 3 to 17 wt.% was measured at 800 to 1,100 K and 1 GPa. The conductivity of the brine-bearing quartzite increases with salinity and fluid fraction, but is almost independent of temperature. Our results suggest that regions of high conductivity (10 −3 to 10 −2 S/m) in the crust could be explained by the presence of quartzite with fluids of salinity similar to that of seawater. To account for those regions with the highest conductivity of 10 −1 S/m, quartzite with fluid of high salinity (>10 wt.%) is required.

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Si and O diffusion in (Mg,Fe)2SiO4 wadsleyite and ringwoodite and its implications for the rheology of the mantle transition zone

Shimojuku

Kubo

Ohtani

et al. 2009

Earth and Planetary Science Letters

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Akira Shimojuku

Effect of temperature, pressure and iron content on the electrical conductivity of olivine and its high‐pressure polymorphs

Electrical conductivity of albite–(quartz)–water and albite–water–NaCl systems and its implication to the high conductivity anomalies in the continental crust

Electrical conductivity of brine-bearing quartzite at 1 GPa: implications for fluid content and salinity of the crust

Si and O diffusion in (Mg,Fe)2SiO4 wadsleyite and ringwoodite and its implications for the rheology of the mantle transition zone

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