M. Ciureanu

TL;DR: A method for identifying physical parameters on the out-of-plane first-order reversal curve diagrams: the position of the irreversible part on the critical axis is a good approximation to the average value of the nanowire coercivity and the maximum interaction field is equal to the interaction field at saturation.

TL;DR: In this paper, first-order reversal curves (FORC) diagrams are used to map the statistical distributions of magnetic hysterons, based on their critical fields (H c) and local interaction fields (Hu), throughout the magnetization reversal.

TL;DR: In this paper, two methods for extracting information from first-order reversal curves (FORCs) obtained on low coercivity samples are presented, where the proportion of reversibility as a function of applied field can be extracted by calculating the ratio of the initial slope of each FORC to the susceptibility on the major hysteresis loop upper branch at the same field.

TL;DR: In this article, a shorted coaxial transmission line with amorphous magnetic wire and a static magnetic field is applied along the transmission line, and a transverse electromagnetic wave also propagates along the line and excites a ferromagnetic resonance of the magnetic ions located within the depth of penetration of the circumferential microwave magnetic field into the magnetic wire.