居里温度
范德瓦尔斯力
凝聚态物理
伊辛模型
蒙特卡罗方法
各向同性
统计物理学
海森堡模型
物理
格子(音乐)
各向异性
铁磁性
参数空间
量子力学
数学
统计
分子
声学
作者
Xiaobo Lu,Ruixiang Fei,Li Yang
出处
期刊:Physical review
日期:2019-11-07
卷期号:100 (20)
被引量:54
标识
DOI:10.1103/physrevb.100.205409
摘要
Recent realizations of intrinsic, long-range magnetic orders in two-dimensional (2D) van der Waals materials have ignited tremendous research interests. In this work, we employ the XXZ Heisenberg model and Monte Carlo simulations to study a fundamental property of these emerging 2D magnetic materials, the Curie temperature (Tc). By including both onsite and neighbor couplings extracted from first-principles simulations, we have calculated Tc of monolayer chromium trihalides and Cr2Ge2Te6, which are of broad interests currently, and the simulation results agree with available measurements. We also clarify the roles played by anisotropic and isotropic interactions in deciding Tc of magnetic orders. Particularly, we find a universal, linear dependence between Tc and magnetic interactions within the parameter space of realistic materials. With this linear dependence, we can predict Tc of general 2D lattice structures, omitting the Monte Carlo simulations. Compared with the widely used Ising model, mean-field theory, and spin-wave theory, this work provides a convenient and quantitative estimation of Tc, giving hope to speeding up the search for novel 2D materials with higher Curie temperatures.
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