Two-Dimensional Superconductivity at the Titanium Sesquioxide Heterointerface

Abstract

The study of exotic superconductivity in two dimensions has been a central theme in solid state and materials research communities. Experimentally exploring and identifying new fascinating interface superconductors with a high transition temperature (Tc) is challenging. Here, we report an experimental observation of intriguing two-dimensional superconductivity with a Tc up to 3.8 K at the interface between Mott insulator Ti2O3 and polar semiconductor GaN. At the verge of superconductivity, we also observe a striking quantum metallic-like state, demonstrating that it is a precursor to the two-dimensional superconductivity as the temperature is decreased. Our work is the first time finding this intriguing superconducting state at the heterointerface, which not only brings a new broad of perspective on the emergent quantum phenomena at the heterointerfaces but also sheds new light on exploiting the novel heterointerface superconductivity with high-Tc via heterostructure engineering.

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