Publikationsrepositorium - Helmholtz-Zentrum Dresden-Rossendorf

A major obstacle towards the increase in areal magnetic recording density and the decrease in bit size is the retention of thermal stability while maintaining reasonable write fields. Materials with graded magnetic anisotropy are promising candidates to solve this problem. Here we demonstrate the approach of using post-deposition ion irradiation to tailor the perpendicular anisotropy in Co/Pd multilayer thin films. The films, with uniform as well as graded perpendicular anisotropy, were synthesized by magnetron sputtering. Based on TRIDYN simulations, different primary ion energies are chosen to achieve varying penetration depths of the ions creating a depth dependent anisotropy grading. Before and after ion irradiation, MOKE as well as magnetometry measurements were employed to detect the changes of the magnetic properties. In the irradiated layer of the film domain nucleation is promoted (Fig. 1). Upon ion irradiation, the Co/Pd films exhibit reduced coercivity and remanence with increasing energies. Higher ion energies have a more pronounced effect on reducing the perpendicular anisotropy. The archived anisotropy grading also depends on the original film stack.