Abstract

Tuning the magnetic properties of perovskite thin films is of great significance for the design of future devices using related materials. The magnetization of LaCoO${}_{3}$ thin films is closely related with the stripelike superstructures observed in the atomic-scale images. In this work, the authors show that the magnetization of La${}_{0.9}$Ca${}_{0.1}$CoO${}_{3}$ thin films grown on SrTiO${}_{3}$ substrate decreases with the substitution of La${}^{3+}$ ions by Ca${}^{2+}$ ions. Interestingly, the magnetization could again increase by introducing the stripelike superstructures in a continuous and controllable manner using electron beam irradiation. These findings not only pave the way for tuning the magnetization of La${}_{0.9}$Ca${}_{0.1}$CoO${}_{3}$ thin films artificially by electron beam irradiation, but also help to deeply understand the origins of the magnetism of La${}_{0.9}$Ca${}_{0.1}$CoO${}_{3}$ thin films.