spinfluctuaties

Spinfluctuaties, the Dutch term for spin fluctuations, refer to temporal variations in the orientation of electron spins within a material. These fluctuations are a fundamental aspect of many-body physics and play a key role in determining the magnetic, electronic, and transport properties of solids, especially in systems close to magnetic phase transitions. In a paramagnetic phase, spins are disordered but exhibit dynamic correlations that can be described by a spin susceptibility function. As temperature is lowered towards a critical point, the amplitude and spatial correlation length of these fluctuations grow, ultimately leading to long‑range magnetic order such as ferromagnetism or antiferromagnetism.

In strongly correlated electron systems, spinfluctuaties can mediate unconventional superconductivity. Theoretical models, including the spin‑fluctuation exchange

Understanding and controlling spinfluctuaties has practical implications for spintronic devices, where spin currents and magnetic relaxation