<p>This study employs Monte Carlo simulations to investigate the influence of geometry, linear and biquadratic coupling interactions and temperature on the magnetic hysteresis properties of Husimi nanostructures. By analyzing triangular, square and pentagonal Husimi geometries, we demonstrate how these factors govern coercive fields, hysteresis loop behavior and thermal stability. The findings provide valuable insights into designing nanostructures tailored for technological applications, such as magnetic storage, memory devices, and spintronic sensors, emphasizing the role of geometry and coupling interactions in optimizing magnetic performance.</p>

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Impact of Geometry on Magnetic Hysteresis: A Monte Carlo Study of Husimi Nanostructures

  • Z. Fadil,
  • Chaitany Jayprakash Raorane,
  • R. El Fdil,
  • M. Naziruddin Khan,
  • Seong-Cheol Kim,
  • Abdulrahman A. Alsayyari,
  • P. Rosaiah,
  • E. Salmani

摘要

This study employs Monte Carlo simulations to investigate the influence of geometry, linear and biquadratic coupling interactions and temperature on the magnetic hysteresis properties of Husimi nanostructures. By analyzing triangular, square and pentagonal Husimi geometries, we demonstrate how these factors govern coercive fields, hysteresis loop behavior and thermal stability. The findings provide valuable insights into designing nanostructures tailored for technological applications, such as magnetic storage, memory devices, and spintronic sensors, emphasizing the role of geometry and coupling interactions in optimizing magnetic performance.