Stability of Fe,Al-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite

Leyla Ismailova; Elena Bykova; Maxim Bykov; Valerio Cerantola; Catherine McCammon; Tiziana Boffa Ballaran; Andrei Bobrov; Ryosuke Sinmyo; Natalia Dubrovinskaia; Konstantin Glazyrin; Hanns-Peter Liermann; Ilya Kupenko; Michael Hanfland; Clemens Prescher; Vitali Prakapenka; Volodymyr Svitlyk; Leonid Dubrovinsky

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Stability of Fe,Al-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite

机译：下地幔中含Fe，Al的水辉石的稳定性和纯铁水辉石的合成

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The physical and chemical properties of Earth’s mantle, as well as its dynamics and evolution, heavily depend on the phase composition of the region. On the basis of experiments in laser-heated diamond anvil cells, we demonstrate that Fe,Al-bearing bridgmanite (magnesium silicate perovskite) is stable to pressures over 120 GPa and temperatures above 3000 K. Ferric iron stabilizes Fe-rich bridgmanite such that we were able to synthesize pure iron bridgmanite at pressures between ~45 and 110 GPa. The compressibility of ferric iron–bearing bridgmanite is significantly different from any known bridgmanite, which has direct implications for the interpretation of seismic tomography data.

机译：地球地幔的物理和化学性质以及其动力学和演化在很大程度上取决于该地区的相组成。根据在激光加热的金刚石砧座中进行的实验，我们证明了含Fe，Al的桥锰矿（钙钛矿镁硅酸盐）在超过120 GPa的压力和3000 K以上的温度下是稳定的。三价铁可稳定富铁的Bridgmanite，因此我们能够在约45至110 GPa的压力下合成纯铁水辉石。含铁铁的水辉石的可压缩性与任何已知的水辉石显着不同，这直接影响了地震层析成像数据的解释。

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《Science Advances》 |2016年第7期|共页
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Leyla Ismailova; Elena Bykova; Maxim Bykov; Valerio Cerantola; Catherine McCammon; Tiziana Boffa Ballaran; Andrei Bobrov; Ryosuke Sinmyo; Natalia Dubrovinskaia; Konstantin Glazyrin; Hanns-Peter Liermann; Ilya Kupenko; Michael Hanfland; Clemens Prescher; Vitali Prakapenka; Volodymyr Svitlyk; Leonid Dubrovinsky;
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1. Electrical conductivity model of Al-bearing bridgmanite with implications for the electrical structure of the Earth's lower mantle [J] . Yoshino Takashi, Kamada Seiji, Zhao Chengcheng, 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：含铝水辉石的电导率模型对地球下地幔的电学结构有影响
2. Stability of Al-bearing superhydrous phase B at the mantle transition zone and the uppermost lower mantle [J] . Kakizawa Sho, Inoue Toru, Nakano Hideto, The American mineralogist . 2018,第7a8期

机译：在披风过渡区和最上面的垫片上的轴承超水相B的稳定性
3. The role of diffusion-driven pure climb creep on the rheology of bridgmanite under lower mantle conditions [J] . Riccardo Reali, James A. Van Orman, Jeffrey S. Pigott, Scientific reports. . 2019,第1期

机译：较低地幔条件下扩散驱动的纯爬升蠕变对水辉石流变学的作用
4. A New Evidence of the Stability of (Mg, Fe)SiO3 Perovskite at Lower Mantle Conditions: Shock Recovery Experiments [C] . XiuFang Chen, Zizheng Gong, Yingwei Fei, American Physical Society Topical Conference on Shock Compression of Condensed Matter . 2006

机译：较低地幔条件下（Mg，Fe）SiO3钙钛矿稳定性的新证据：冲击恢复实验
5. Stability, crystal structure, and equation of state of silicate perovskites in the Earth's lower mantle. [D] . Shim, Sang-Heon. 2001

机译：地球下地幔中硅酸盐钙钛矿的稳定性，晶体结构和状态方程。
6. Stability of FeAl-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite [O] . Leyla Ismailova, Elena Bykova, Maxim Bykov, 2016

机译：下地幔中含FeAl的水辉石的稳定性及纯铁水辉石的合成
7. Stability of Fe,Al-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite [O] . Ismailova, L., Bykova, E., Liermann, H.-P., 2016

机译：下地幔中含Fe，Al的水辉石的稳定性及纯铁水辉石的合成

Stability of Fe,Al-bearing bridgmanite in the lower mantle and synthesis of pure Fe-bridgmanite

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