密度泛函理论
而量子蒙特卡罗
单层
凝聚态物理
工作流程
蒙特卡罗方法
居里温度
赫巴德模型
材料科学
电子结构
化学
物理
铁磁性
计算化学
计算机科学
纳米技术
数学
统计
数据库
超导电性
作者
Daniel Wines,Kamal Choudhary,Francesca Tavazza
标识
DOI:10.1021/acs.jpcc.2c06733
摘要
The search for two-dimensional (2D) magnetic materials has attracted a great deal of attention because of the experimental synthesis of 2D CrI 3, which has a measured Curie temperature of 45 K. Often times, these monolayers have a higher degree of electron correlation and require more sophisticated methods beyond density functional theory (DFT). Diffusion Monte Carlo (DMC) is a correlated electronic structure method that has been demonstrated to be successful for calculating the electronic and magnetic properties of a wide variety of 2D and bulk systems, since it has a weaker dependence on the Hubbard parameter ( U ) and density functional. In this study, we designed a workflow that combines DFT+U and DMC in order to treat 2D correlated magnetic systems. We chose monolayer CrX 3 (X = I, Br, Cl, F), with a stronger focus on CrI 3 and CrBr 3, as a case study due to the fact that they have been experimentally realized and have a finite critical temperature. With this DFT+U and DMC workflow and the analytical method of Torelli and Olsen, we estimated a maximum value of 43.56 K for the T c of CrI 3 and 20.78 K for the T c of CrBr 3, in addition to analyzing the spin densities and magnetic properties with DMC and DFT+U. We expect that running this workflow for a well-known material class will aid in the future discovery and characterization of lesser known and more complex correlated 2D magnetic materials.
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