NUSNNI-NanoCore, National University of Singapore, Singapore 117411, Singapore.
Nat Commun. 2011 Feb 8;2:188. doi: 10.1038/ncomms1192.
There are many electronic and magnetic properties exhibited by complex oxides. Electronic phase separation (EPS) is one of those, the presence of which can be linked to exotic behaviours, such as colossal magnetoresistance, metal-insulator transition and high-temperature superconductivity. A variety of new and unusual electronic phases at the interfaces between complex oxides, in particular between two non-magnetic insulators LaAlO(3) and SrTiO(3), have stimulated the oxide community. However, no EPS has been observed in this system despite a theoretical prediction. Here, we report an EPS state at the LaAlO(3)/SrTiO(3) interface, where the interface charges are separated into regions of a quasi-two-dimensional electron gas, a ferromagnetic phase, which persists above room temperature, and a (superconductor like) diamagnetic/paramagnetic phase below 60 K. The EPS is due to the selective occupancy (in the form of 2D-nanoscopic metallic droplets) of interface sub-bands of the nearly degenerate Ti orbital in the SrTiO(3). The observation of this EPS demonstrates the electronic and magnetic phenomena that can emerge at the interface between complex oxides mediated by the Ti orbital.
复杂氧化物表现出许多电子和磁性特性。电子相分离(EPS)就是其中之一,其存在可以与奇异行为相关联,例如庞磁电阻、金属-绝缘体转变和高温超导性。在复杂氧化物之间的界面处存在各种新型和不寻常的电子相,特别是在两个非磁性绝缘体 LaAlO(3) 和 SrTiO(3) 之间,这激发了氧化物领域的研究。然而,尽管有理论预测,但在该系统中尚未观察到 EPS。在这里,我们报告了在 LaAlO(3)/SrTiO(3) 界面处的 EPS 状态,其中界面电荷分离成准二维电子气体、铁磁相的区域,该铁磁相在室温以上持续存在,而在 60 K 以下则存在(类似超导的)抗磁性/顺磁性相。EPS 是由于在 SrTiO(3) 中几乎简并的 Ti 轨道的界面亚带的选择性占据(以二维纳米尺度金属液滴的形式)所致。这种 EPS 的观察证明了通过 Ti 轨道介导的复杂氧化物之间的界面可以出现的电子和磁性现象。
