Predicting magnetization plateaus in hexagonal boron nitride-like system: A theoretical study

Abstract

This research employs Monte Carlo simulations to explore the ground state phase diagrams, hysteresis cycles, and magnetization plateaus of hexagonal boron nitride-like system. Specifically, the ground state phase diagrams are meticulously analyzed with respect to the crystalline field (D), exchange coupling parameter ([Formula: see text]), and external magnetic field (H), and are presented on the ([Formula: see text]), ([Formula: see text]), and ([Formula: see text]) planes. The study observes various stable spin configurations for different parameter values. Furthermore, this investigation delves into the behavior of sublattices of the magnetization plateaus, under the influence of exchange coupling parameter ([Formula: see text]), temperature (T), and the crystalline field (D). The outcomes of this study hold significant implications for the development of magnetic materials for diverse applications.