Abstract
The Monte Carlo studies presented in this paper provide insight into stable phases, magnetic hysteresis cycles and magnetization plateaus in mixed nano-Kagome bilayer lattices. In particular, exchange coupling reduction affects coercive and saturation fields, and temperature variations impact hysteresis loop regions. The role of the crystal field in the design of magnetization plateaus was highlighted. The study explores the interaction of magnetization plates and their response to critical and saturation fields, depending on the crystal field and ferrielectric coupling. Extremely low temperatures ([Formula: see text]) play a crucial role in the manifestation of magnetization plateaus. These results suggest possible applications in nanotechnology, particularly in the design of storage media.
Published Version
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