Magnetic Domain and Structural Defects Size in Ultrathin Films.

Herein, a model is proposed for measuring the structural defects size <italic>r</italic>0 in an ultrathin magnetic layer with perpendicular magnetic anisotropy. Based on the observations of magnetic domains in Ta/Pt/Co/Pt ultrathin films, using polar magneto‐optical Kerr effect microscopy and measurements of their magnetic anisotropies, the correlation between magnetic domains size <italic>D</italic> and structural defects size <italic>r</italic>0, as well as the defects concentration parameter <italic>α</italic>K, which designates the degree of pinning, has been modeled. The average <italic>r</italic>0 value found is high in the sample with unannealed buffer layers and considerably decreases with annealing. It is 6.17 nm with unannealed Ta/Pt buffer layers, 1.06 nm in sample with Ta/Pt buffer layers annealed at 423 K, and 0.49 nm in that with buffer layers annealed at 573 K. The significant drop of <italic>r</italic>0 is in good agreement with the high depinning noted with buffer layers annealing in recent work. [ABSTRACT FROM AUTHOR]