The effect of iron spin transition on electrical conductivity of (MgFe)O magnesiowüstite

机译：铁自旋转变对（MgFe）O菱镁矿电导率的影响

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We measured the electrical conductivity of Mg0.81Fe0.19O magnesiowüstite, one of the important minerals comprising Earth’s lower mantle, at high pressures up to 135 GPa and 300 K in a diamond-anvil cell (DAC). The results demonstrate that the electrical conductivity increases with increasing pressure to about 60 GPa and exhibits anomalous behavior at higher pressures; it conversely decreases to around 80 GPa and again increases very mildly with pressure. These observed changes may be explained by the high-spin to low-spin transition of iron in magnesiowüstite that was previously reported to occur in a similar pressure range. A very small pressure effect on the electrical conductivity above 80 GPa suggests that a dominant conduction mechanism changes by this electronic spin transition. The electrical conductivity below 2000-km depth in the mantle may be much smaller than previously thought, since the spin transition takes place also in (Mg,Fe)SiO3 perovskite.

机译：我们测量了Mg0.81Fe0.19O菱镁矿的电导率，这是一种重要的矿物，是地球下地幔的一种，在金刚石砧座电池（DAC）中，压力高达135 GPa和300K。结果表明，电导率随压力的增加而增加，达到约60 GPa，并在较高的压力下表现出异常行为。相反，它降低到80 GPa左右，并随着压力再次非常轻微地增加。这些观察到的变化可以用以前报道的在相似的压力范围内发生的镁在镁菱铁矿中的高自旋转变为低自旋转变来解释。在高于80 GPa的压力下，对电导率的很小压力影响表明，主要的传导机制会因这种电子自旋跃迁而改变。地幔中2000公里以下的电导率可能比以前认为的要小得多，因为自旋转变也发生在（Mg，Fe）SiO3钙钛矿中。

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期刊名称 Proceedings of the Japan Academy. Series B Physical and Biological Sciences
作者
Kenji Ohta; Kei Hirose; Suzue Onoda; Katsuya Shimizu;
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作者单位

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年(卷),期 2007(83),3
年度 2007
页码 97–100
总页数 4
原文格式 PDF
正文语种
中图分类生物学;
关键词
electrical conductivity high-pressure magnesiowüstite spin transition;

机译：电导率;高压;菱镁矿;自旋转变;

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2. Pressure-induced spin-state transition of iron in magnesiowüstite (Fe,Mg)O [J] . I. Leonov, A. V. Ponomareva, R. Nazarov, Physical Review. B, Condensed Matter . 2017,第7a8CD期

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机译：铁自旋转变对（Mg，Fe）O菱镁矿弹性的影响及其对下地幔地震学性质的影响

The effect of iron spin transition on electrical conductivity of (MgFe)O magnesiowüstite

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