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First-principles prediction of high Curie temperature for ferromagnetic bcc-Co and bcc-FeCo alloys and its relevance to tunneling magnetoresistance

机译：铁磁性bcc-Co和bcc-FeCo合金居里温度高的第一性原理预测及其与隧穿磁阻的关系

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The authors determine from first principles the Curie temperature T-C for bulk Co in the hcp, fcc, bcc, and body-centered-tetragonal (bct) phases, for FeCo alloys, and for bcc and bct Fe. For bcc Co, T-C=1420 K is predicted. This would be the highest Curie temperature among the Co phases, suggesting that bcc-Co/MgO/bcc-Co tunnel junctions offer high magnetoresistance ratios even at room temperature. The Curie temperatures are calculated by mapping ab initio results to a Heisenberg model, which is solved by a Monte Carlo method. (c) 2007 American Institute of Physics.

机译：作者从第一原理中确定了hcp，fcc，bcc和体心四方（bct）相中的块状Co，FeCo合金以及bcc和bct Fe的居里温度T-C。对于密件抄送Co，预计T-C = 1420 K.这将是Co相中居里温度最高的温度，这表明bcc-Co / MgO / bcc-Co隧道结即使在室温下也可提供高磁阻比。通过从头算结果到海森堡模型的映射来计算居里温度，该模型通过蒙特卡洛方法求解。（c）2007年美国物理研究所。

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Lezaic, M.; Mavropoulos, Ph.; Blügel, S.;
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年度 2007
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机译：铁磁体高居里温度的第一性原理预测 bcc-Co和bcc-FeCo合金及其与隧道磁阻的相关性

First-principles prediction of high Curie temperature for ferromagnetic bcc-Co and bcc-FeCo alloys and its relevance to tunneling magnetoresistance

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