Magnetic Behavior and Compensation Temperature in Sulflower-Like Nanostructures: A Monte Carlo Study

This study delves into the magnetic behavior of sulflower-like nanostructures, particularly focusing on compensation and blocking temperatures. Through the construction of a phase diagram detailing crystal and external magnetic fields (D/J sigma sigma, H/J sigma sigma), stable phases were identified, shedding light on how spin configurations evolve with variations in H/J sigma sigma and D/J sigma sigma. The analysis of blocking temperature (TB/J sigma sigma) and compensation temperature (Tcomp/J sigma sigma) relative to J sigma s/J sigma sigma, Jss/J sigma sigma and H/J sigma sigma reveals intriguing patterns. Additionally, an examination of hysteresis cycles uncovers dynamic behavior, characterized by multiple loops and magnetization plateaus. These findings open promising avenues for spintronic applications of sulflower-like nanostructures, offering valuable insights into their magnetic behavior and potential utility in future technologies. This involves the fabrication of high-density data storage devices, where its tunable magnetic characteristics may result in the development of effective data manipulation and storage components.