Electron correlation and magnetic field induced phase transitions in spin-1/2 Falicov–Kimball model on a triangular lattice

IF 1.6 4区 物理与天体物理 Q3 PHYSICS, CONDENSED MATTER The European Physical Journal B Pub Date : 2024-11-01 DOI:10.1140/epjb/s10051-024-00812-2
Swati Pandey, Umesh K. Yadav, Pradip K. Priya
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Abstract

We have studied the ground state properties of spin-1/2 Falicov–Kimball model on a triangular lattice in the presence of external magnetic field. Numerical and Monte Carlo simulation methods are employed to obtain the results. We have found that the ground state properties are significantly influenced by the onsite Coulomb correlation between itinerant and localized electrons as well as the orbital magnetic field. Only rational flux fractions are taken into consideration in each unit cell. Transition from metal to insulator phase is accompanied by phase segregation to regular/quasi-regular/mixed phase with change in magnetic field for small values of onsite Coulomb correlation. The external magnetic field facilitates metal to insulator transition even at large values of onsite Coulomb correlation with variation in the number of electrons in the system. The results obtained through this study are applicable to layered triangular lattice systems such as rare earth and transition metal dichalcogenides, cobaltates, \(GdI_{2}\), \(NaTiO_{2}\), \(NaVO_{2}\) etc. Further, electric and magnetic sensors and high-energy storage devices can be developed using these results.

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三角形晶格上自旋-1/2 Falicov-Kimball 模型中的电子相关性和磁场诱导相变
我们研究了三角形晶格上自旋-1/2 Falicov-Kimball 模型在外加磁场作用下的基态性质。我们采用了数值和蒙特卡罗模拟方法来获得结果。我们发现基态特性受到巡回电子和局部电子之间的现场库仑相关性以及轨道磁场的显著影响。在每个单元格中只考虑合理的通量分数。从金属相到绝缘体相的转变伴随着相分离,在现场库仑相关性值较小的情况下,随着磁场的变化,金属相会转变为规则相/准规则相/混合相。随着体系中电子数的变化,即使现场库仑相关性的值很大,外部磁场也会促进金属向绝缘体的转变。这项研究获得的结果适用于层状三角晶格体系,如稀土和过渡金属二钴化物、钴酸盐、\(GdI_{2}\)、\(NaTiO_{2}\)、\(NaVO_{2}\)等。此外,还可以利用这些成果开发电传感器、磁传感器和高能量存储设备。
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来源期刊
The European Physical Journal B
The European Physical Journal B 物理-物理:凝聚态物理
CiteScore
2.80
自引率
6.20%
发文量
184
审稿时长
5.1 months
期刊介绍: Solid State and Materials; Mesoscopic and Nanoscale Systems; Computational Methods; Statistical and Nonlinear Physics
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