Plasticity of Persistent Photoconductance of Amorphous LaAlO3/SrTiO3Interfaces under Varying Illumination Conditions

We report on transport measurements under optical stimulation of persistent photoconductance (PPC) at the interface between amorphous LaAlO₃ films and SrTiO₃ crystals. The spectral response in the visible region was analyzed under varying illumination conditions and exposure times down to milliseconds. The PPC is plastically modulated by optical stimuli of varying strength and duration, demonstrating fine-tuned photoconductive responsivity over a diversity of cumulated timespans. Interestingly, under optimal conditions, the photoconductance is sensitive to intensity contrasts under conditions comparable to bright-sunlight environments. The prospects of exploiting photoconductance—including potential strategies to reach higher sensitivity—are discussed in the context of neuromorphic applications.

Recommended citation: Y. Chen, B. Casals, and G. Herranz, Plasticity of Persistent Photoconductance of Amorphous LaAlO3/SrTiO3 Interfaces under Varying Illumination Conditions, ACS Appl. Electron. Mater. 1, 810 (2019).