A deep investigation of NiO and MnO through the first principle calculations and Monte Carlo simulations

IF 2.9 Q3 CHEMISTRY, PHYSICAL
M. Alaei, H. Karimi
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引用次数: 2

Abstract

In this study, we use Hubbard-corrected density functional theory (DFT+U) to derive spin model Hamiltonians consisting of Heisenberg exchange interactions up to the fourth nearest neighbors and bi-quadratic interactions. We map the DFT+U results of several magnetic configurations to the Heisenberg spin model Hamiltonian to estimate Heisenberg exchanges. We demonstrate that the number of magnetic configurations should be at least twice the number of exchange parameters to estimate exchange parameters correctly. To calculate biquadratic interaction, we propose specific non-collinear magnetic configurations that do not change the energy of the Heisenberg spin model. We use classical Monte Carlo (MC) simulations to evaluate DFT+U results. We obtain the temperature dependence of magnetic susceptibility and specific heat to determine the Curie–Weiss and Néel temperatures. The MC simulations reveal that although the biquadratic interaction can not change the Néel temperature, it modifies the order parameter. We indicate that for a fair comparison between classical MC simulations and experiments, we need to consider the quantum effect by applying (S+1)/S correction in classical MC simulations.
通过第一性原理计算和蒙特卡罗模拟深入研究NiO和MnO
在这项研究中,我们使用Hubbard校正密度泛函理论(DFT+U)推导了由海森堡交换相互作用到第四近邻和双二次相互作用组成的自旋模型哈密顿量。我们将几种磁组态的DFT+U结果映射到海森堡自旋模型哈密顿量,以估计海森堡交换。我们证明,为了正确估计交换参数,磁性配置的数量应该至少是交换参数数量的两倍。为了计算双二次相互作用,我们提出了不改变海森堡自旋模型能量的特定非共线磁组态。我们使用经典的蒙特卡罗(MC)模拟来评估DFT+U结果。我们获得了磁化率和比热的温度依赖性,以确定居里-维斯和Néel温度。MC模拟表明,尽管双二次相互作用不能改变Néel温度,但它会改变阶数参数。我们指出,为了在经典MC模拟和实验之间进行公平的比较,我们需要通过在经典MC仿真中应用(S+1)/S校正来考虑量子效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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