• Quantum Materials: Implications for Spintronics and Magnetic Phenomena

  DOI:DOI:18.A003.aarf.J14I01.009847

  ---

  
  

Reetu Rani

Abstract:
This paper investigates the theoretical foundations and experimental observations of zero spin density states, focusing on their implications for spintronics and advanced material design. By analyzing spin density waves, topological spin textures, and zero-field splitting mechanisms, we aim to provide insights into how these phenomena influence material behavior at the nanoscale. The study also explores ultrafast switching mechanisms in ferrimagnetic films and their potential applications in next-generation spintronic devices. Our findings contribute to the growing field of quantum magnetism and open new avenues for manipulating spin states in condensed matter physics.