A nonmagnetic differentiated early planetary body

Weiss Benjamin P.; Wang Huapei; Sharp Thomas G.; Gattacceca Jerome; Shuster David L.; Downey Brynna; Hu Jinping; Fu Roger R.; Kuan Aaron T.; Suavet Clement; Irving Anthony J.; Wang Jun; Wang Jiajun

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A nonmagnetic differentiated early planetary body

机译：非磁性分化的早期行星体

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Paleomagnetic studies of meteorites have shown that the solar nebula was likely magnetized and that many early planetary bodies generated dynamo magnetic fields in their advecting metallic cores. The surface fields on these bodies were recorded by a diversity of chondrites and achondrites, ranging in intensity from several a to several hundred mu T. In fact, an achondrite parent body without evidence for paleomagnetic fields has yet to be confidently identified, hinting that early solar system field generation and the dynamo process in particular may have been common. Here we present paleomagnetic measurements of the ungrouped achondrite NWA 7325 indicating that it last cooled in a near-zero field (

机译：陨石的古磁性研究表明，太阳星云很可能被磁化，并且许多早期行星体在其平流金属核中产生了发电机磁场。这些尸体上的表面田地由多样性的软骨质和achondrites记录，强度从几〜数百亩。实际上，没有证据旧磁场的良性父母的父母身体尚未自信地识别出来，提前暗示特别是太阳系领域生成和发电机过程可能很常见。在这里，我们提出了未分组的achondrite NWA 7325的古磁测量，表明它最后在接近零场（<类似于1.7 mu t）的情况下，估计发生在4563.09 +/- 0.26万年前（MA）中（MA）来自AL- Mg Chronometry。因为NWA 7325在散发形元素中高度耗尽，因此其父母身体仍然经历了大规模的金属硅酸盐分化并且可能形成金属芯。这使得NWA 7325来自不同的早期太阳系体的基本上未逗用的火成岩的第一识别示例。这些结果表明，所有磁场，包括来自NWA 7325父体，太阳星云，幼孙和太阳风中的任何核心发电机的磁场，在4563 mA的NWA 7325的位置处<1.7 mu t。这是最近的结论是，太阳星云在太阳能系统形成后400万年减少了400万年。 NWA 7325还用作实验控制，对其他Achondrites中的剩磁磁化积极识别进行了更大的信心。（c）2017年Elsevier B.V.保留所有权利。

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来源
《Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System》 |2017年第2017期|共14页
作者
Weiss Benjamin P.; Wang Huapei; Sharp Thomas G.; Gattacceca Jerome; Shuster David L.; Downey Brynna; Hu Jinping; Fu Roger R.; Kuan Aaron T.; Suavet Clement; Irving Anthony J.; Wang Jun; Wang Jiajun;
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作者单位

MIT Dept Earth Atmospher &

Planetary Sci 77 Massachusetts Ave Cambridge MA 02138 USA;

MIT Dept Earth Atmospher &

Planetary Sci 77 Massachusetts Ave Cambridge MA 02138 USA;

Arizona State Univ Sch Earth &

Space Explorat Tempe AZ USA;

Aix Marseille Univ Inst Rech Dev CNRS Coll France CEREGE Aix En Provence France;

Univ Calif Berkeley Dept Earth &

Planetary Sci Berkeley CA 94720 USA;

MIT Dept Earth Atmospher &

Planetary Sci 77 Massachusetts Ave Cambridge MA 02138 USA;

Arizona State Univ Sch Earth &

Space Explorat Tempe AZ USA;

MIT Dept Earth Atmospher &

Planetary Sci 77 Massachusetts Ave Cambridge MA 02138 USA;

Harvard Med Sch Dept Neurobiol Boston MA 02115 USA;

MIT Dept Earth Atmospher &

Planetary Sci 77 Massachusetts Ave Cambridge MA 02138 USA;

Univ Washington Dept Earth &

Space Sci Seattle WA 98195 USA;

Brookhaven Natl Lab Natl Synchrotron Light Source 2 Upton NY 11973 USA;

Brookhaven Natl Lab Natl Synchrotron Light Source 2 Upton NY 11973 USA;

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原文格式 PDF
正文语种 eng
中图分类天文学、地球科学;行星、卫星、彗星、流星、陨星;
关键词
planetesimals; paleomagnetism; meteorites; dynamo; differentiation;

机译：行星;古磁石;陨石;发电机;差异化;

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专利

1. A nonmagnetic differentiated early planetary body [J] . Weiss Benjamin P., Wang Huapei, Sharp Thomas G., Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2017,第期

机译：非磁性分化的早期行星体
2. Lithium isotope composition of ordinary and carbonaceous chondrites, and differentiated planetary bodies: Bulk solar system and solar reservoirs [J] . Seitz HM, Brey GP, Zipfel J, Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2007,第3a4期

机译：普通和碳质球粒陨石的锂同位素组成，以及不同的行星体：大块太阳系和太阳储层
3. ~(92)Nb-~(92)Zr and the Early Differentiation History of Planetary Bodies [J] . C. Muenker, S. Weyer, K. Mezger, Science . 2000,第5484期

机译：〜（92）Nb-〜（92）Zr与行星体的早期分化历史
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5. Geochemical Constraints for Mechanisms of Planetary Differentiation and Volatile Depletion [D] . Dhaliwal, Jasmeet Kaur. 2016

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7. Magnetic alignment of nonmagnetic silicates caused by paramagnetic anisotropy: Origin of polarization observed in planetary formation region [O] . Chiaki Uyeda, Keiji Hisayoshi, Shun Kanou 2010

机译：由顺磁各向异性引起的非磁性硅酸盐的磁对准：在行星形成区中观察到的极化起源
8. Analysis of a Fortran Program for Computing Electric Field Distributions in Heterogeneous Penetrable Nonmagnetic Bodies of Arbitrary Shape through Application of Tensor Green's Functions. [R] . penn,john w. cohoon,david k. 1978

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A nonmagnetic differentiated early planetary body

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