| Literature DB >> 33986177 |
Zheng Chen1, Yuan Liu1, Hui Zhang2, Zhongran Liu3, He Tian3, Yanqiu Sun1, Meng Zhang1, Yi Zhou4,5,6, Jirong Sun4,5,7, Yanwu Xie8,9.
Abstract
The oxide interface between LaAlO3 and KTaO3(111) can harbor a superconducting state. We report that by applying a gate voltage (V G) across KTaO3, the interface can be continuously tuned from superconducting into insulating states, yielding a dome-shaped T c-V G dependence, where T c is the transition temperature. The electric gating has only a minor effect on carrier density but a strong one on mobility. We interpret the tuning of mobility in terms of change in the spatial profile of the carriers in the interface and hence, effective disorder. As the temperature is decreased, the resistance saturates at the lowest temperature on both superconducting and insulating sides, suggesting the emergence of a quantum metallic state associated with a failed superconductor and/or fragile insulator.Entities:
Year: 2021 PMID: 33986177 DOI: 10.1126/science.abb3848
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728