文摘
The heterostructure interface provides a powerful platform for exploring rich emergent phenomena, such as interfacial superconductivity and nontrivial topological surface states. Here, SrRuOb>3b>/SrIrOb>3b> superlattices were epitaxially synthesized. The magnetic and magneto-transport properties of these superlattices were characterized. A broad cusp-type splitting in the zero-field-cooling/field-cooling temperature-dependent magnetization and magnetization relaxation, which follows the modified stretched function model, accompanied by double hysteresis magnetization loops were demonstrated. These physical effects were modulated by the SrIrOb>3b> layer thickness, which confirms the coexistence of interfacial spin glass and ferromagnetic ordering in the superlattices. In addition, the topological Hall effect was observed at low temperatures, and it is weakened with the increase of the SrIrOb>3b> layer thickness. These results suggest that a noncoplanar spin texture is generated at the SrRuOb>3b>/SrIrOb>3b> interfaces because of the interfacial Dzyaloshinskii–Moriya interaction. This work demonstrates that SrIrOb>3b> can effectively induce interfacial Dzyaloshinskii–Moriya interactions in superlattices, which would serve as a mechanism to develop spintronic devices with perovskite oxides.