A first-principles study aided with Monte Carlo simulations of carbon doped iron-manganese alloys

Comtesse D.; Herper H.C.; Hucht A.; Entel P.

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A first-principles study aided with Monte Carlo simulations of carbon doped iron-manganese alloys

机译：碳掺杂铁锰合金的Monte Carlo模拟辅助的第一性原理研究

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We have investigated the complex magnetic properties of Fe _(1-x)Mn _xC _y alloys by using an iterative combination of ab initio calculations and Monte Carlo simulations. The latter gives insight into finite temperature magnetism and allows to determine the critical temperature of magnetic phase transitions. We restrict the investigation to ordered systems with 25, 50 and 75% manganese and study the influence of carbon at octahedral interstitial sites on the magnetic properties. The combination of ab initio calculations with Monte Carlo simulations turns out to be a powerful tool to determine the complex magnetic structures, which originate from the competition of ferro- and antiferromagnetic interactions in the FeMn alloys.

机译：通过使用从头算和蒙特卡洛模拟的迭代组合，我们研究了Fe _（1-x）Mn _xC _y合金的复磁性能。后者提供了对有限温度磁场的洞察力，并允许确定磁性相变的临界温度。我们将研究限制在含25％，50％和75％锰的有序系统中，并研究八面体间隙位置处的碳对磁性能的影响。从头算与蒙特卡洛模拟的结合被证明是确定复杂磁性结构的有力工具，该结构是由FeMn合金中铁磁性和反铁磁性相互作用引起的。

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《The European physical journal, B. Condensed matter physics》 |2012年第10期|共13页
作者
Comtesse D.; Herper H.C.; Hucht A.; Entel P.;
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A first-principles study aided with Monte Carlo simulations of carbon doped iron-manganese alloys

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