2025-10-10 フランス国立科学研究センター(CNRS)
<関連情報>
- https://www.cnrs.fr/en/press/towards-light-controlled-electronic-components
- https://www.nature.com/articles/s41563-025-02363-y
光誘起高移動度電子ガスによる無限層ニッケル酸塩/SrTiO3界面における巨大光伝導 Giant photoconductance at infinite-layer nickelate/SrTiO3 interfaces via an optically induced high-mobility electron gas
David Sanchez-Manzano,G. Krieger,A. Raji,B. Geisler,H. Sahib,V. Humbert,H. Jaffrès,J. Santamaría,R. Pentcheva,A. Gloter,D. Preziosi & Javier E. Villegas
Nature Materials Published:10 October 2025
DOI:https://doi.org/10.1038/s41563-025-02363-y
Abstract
Two-dimensional electron gases (2DEGs) at oxide interfaces are promising for electronics because of desirable ingredients such as spin–orbit coupling and strong correlations that can be leveraged to bridge into spintronics or photonics. In this context, the ability to manipulate oxide 2DEGs via external knobs is particularly important. Here we show that a volatile high-mobility 2DEG can be photogenerated at the interface between SrTiO3 (001) and infinite-layer NdNiO2, where such an electronic state is otherwise absent. This allows us to optically switch the 2DEG between ON and OFF, leading to a giant, instantaneous conductivity variation. The key ingredients for this effect are the structural and electronic reconstructions at the NdNiO2//SrTiO3 interface, together with a built-in interfacial electric field that promotes the occupation of the Ti 3dxy band by the photogenerated carriers. By contributing to understanding photoconductance at complex-oxide interfaces, our results pave the way to engineer the photoresponse of strongly correlated electrons.
