High-pressure sound velocities and elasticity of aluminous MgSiO3 perovskite to 45 GPa: Implications for lateral heterogeneity in Earth's lower mantle

Jackson JM; Zhang JZ; Shu JF; Sinogeikin SV; Bass JD

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High-pressure sound velocities and elasticity of aluminous MgSiO3 perovskite to 45 GPa: Implications for lateral heterogeneity in Earth's lower mantle

机译：钙钛矿型MgSiO3铝的高压声速和弹性，达到45 GPa：对地球下地幔横向不均匀性的影响

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Brillouin scattering measurements on aluminous magnesium silicate perovskite, arguably the most abundant phase in Earth, have been performed to 45 GPa in a diamond anvil cell at room temperature, using methanol-ethanol-water and neon as pressure transmitting media. The experiments were performed on a polycrystalline sample of aluminous MgSiO3 perovskite containing 5.1 0.2 wt.+ACU- Al2O3. The pressure derivatives of the adiabatic bulk (K-0S) and shear (mu(0S)) moduli are 3.7 0.3 and 1.7 0.2, respectively. These measurements allow us to evaluate whether the observed lateral variations of seismic wave speeds in Earth's lower mantle are due at least in part to a chemical origin. Our results indicate that a difference in the aluminum content of silicate perovskite, reflecting a variation in overall chemistry, is a plausible candidate for such seismic heterogeneity.

机译：在室温下，使用甲醇-乙醇-水和氖气作为压力传递介质，已在金刚石砧座中对硅酸镁钙钛矿（可以说是地球上最丰富的相）进行布里渊散射测量，测量值为45 GPa。实验是在含有5.1 0.2 wt。+ ACU-Al2O3的铝镁钙钛矿多晶样品上进行的。绝热体积（K-0S）和剪切（mu（0S））模的压力导数分别为3.7 0.3和1.7 0.2。这些测量值使我们能够评估观察到的地球下部地幔中地震波速度的横向变化是否至少部分是由于化学成因引起的。我们的结果表明，反映整体化学变化的硅酸盐钙钛矿中铝含量的差异是此类地震非均质性的合理候选者。

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《Geophysical Research Letters》 |2005年第21期|共4页
作者
Jackson JM; Zhang JZ; Shu JF; Sinogeikin SV; Bass JD;
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中图分类地球物理学;
关键词
EQUATION-OF-STATE+ADs- SILICATE PEROVSKITE+ADs- COMPRESSIBILITY+ADs- TEMPERATURE+ADs- CONSTRAINTS+ADs- MECHANISM+ADs- PHASE;

机译：状态方程+ ADs-硅钙钙石+ ADs-可压缩性+ ADs-温度+ ADs-约束+ ADs-机制+ ADs-相;

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1. High-pressure sound velocities and elasticity of aluminous MgSiO3 perovskite to 45 GPa: Implications for lateral heterogeneity in Earth's lower mantle [J] . Jackson JM, Zhang JZ, Shu JF, Geophysical Research Letters . 2005,第21期

机译：钙钛矿型MgSiO3铝的高压声速和弹性，达到45 GPa：对地球下地幔横向不均匀性的影响
2. High-pressure, temperature elasticity of Fe- and Al-bearing MgSiO3: Implications for the Earth's lower mantle [J] . Zhang Shuai, Cottaar Sanne, Liu Tao, Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2016,第Null期

机译：含Fe和Al的MgSiO3的高压，温度弹性：对地球下地幔的影响
3. High-pressure sound velocity of perovskite-enstatite and the possible composition of the Earth's lower mantle [J] . GONG Zizheng, XIE Hongsen, HUO Hui Chinese science bulletin . 2000,第10期

机译：钙钛矿-顽辉石的高压声速以及地球下地幔的可能组成
4. Oxygen Vacancies in Perovskite and Related Structures: Implications for the Lower Mantle [C] . Catherine A. McCammon, Ana Isabel Becerro, Stefan Lauterbach, Symposium on Perovskite Materials, Apr 1-5, 2002, San Francisco, California . 2002

机译：钙钛矿中的氧空位及相关结构：对下地幔的影响
5. A high-pressure and high-temperature study of serpentine and its implications to Earth's lower mantle. [D] . Shieh, Ruey-shiang Sean. 1998

机译：蛇纹石的高压高温研究及其对地球下地幔的影响。
6. X-ray Raman scattering study of MgSiO3 glass at high pressure: Implication for triclustered MgSiO3 melt in Earths mantle [O] . Sung Keun Lee, Jung-Fu Lin, Yong Q. Cai, 2008

机译：MgSiO3玻璃在高压下的X射线拉曼散射研究：对地幔中含杂MgSiO3熔体的暗示
7. Sound velocities and elasticity of aluminous MgSiO3 perovskite: Implications for aluminum heterogeneity in Earth’s lower mantle [O] . Jennifer M. Jackson, Jianzhong Zhang, Jay D. Bass 2015

机译：铝硅酸盐mgsiO3的声速和弹性：对地下地幔铝异质性的影响

High-pressure sound velocities and elasticity of aluminous MgSiO3 perovskite to 45 GPa: Implications for lateral heterogeneity in Earth's lower mantle

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