Phase separation and effect of strain on magnetic properties of Mn_3Ga_(1-x)Sn_xC

Dias E. T.; Das A.; Hoser A.; Emura S.; Nigam A. K.; Priolkar K. R.

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Phase separation and effect of strain on magnetic properties of Mn_3Ga_(1-x)Sn_xC

机译：相分离和应变对Mn_3Ga_（1-x）Sn_xC磁性的影响

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While the unit cell volume of compounds belonging to the Mn(3)Ga(1-x)n(x)C (0 = x = 1) series shows a conformity with Vegard's law, their magnetic and magnetocaloric properties behave differently from those of parent compounds Mn3GaC and Mn3SnC. A correlation between the observed magnetic properties and underlying magnetic and local structure suggests that replacing Ga atoms by larger atoms of Sn results in the formation of Ga-rich and Sn-rich clusters. As a result, even though the long range structure appears to be cubic, Mn atoms find themselves in two different local environments. The packing of these two different local structures into a single global structure induces tensile/compressive strains on the Mn6C functional unit and is responsible for the observed magnetic properties across the entire solid solution range. Published by AIP Publishing.

机译：属于Mn（3）Ga（1-x）n（x）C（0 <= x <= 1）系列的化合物的晶胞体积显示符合Vegard定律，但其磁热磁性能与母体化合物Mn3GaC和Mn3SnC的那些。观察到的磁性能与下面的磁性和局部结构之间的相关性表明，用较大的Sn原子取代Ga原子会导致形成富Ga和富Sn团簇。结果，即使远距离结构看起来是立方的，Mn原子也发现自己处于两个不同的局部环境中。将这两个不同的局部结构堆积为一个整体结构会在Mn6C功能单元上引起拉伸/压缩应变，并负责在整个固溶体范围内观察到的磁性能。由AIP Publishing发布。

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《Journal of Applied Physics 》 |2018年第15期| 153902.1-153902.10| 共10页
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Dias E. T.; Das A.; Hoser A.; Emura S.; Nigam A. K.; Priolkar K. R.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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Phase separation and effect of strain on magnetic properties of Mn_3Ga_(1-x)Sn_xC

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