posted on 2020-03-30, 22:29authored byHailang Qin, Bin Guo, Linjing Wang, Meng Zhang, Bochao Xu, Kaige Shi, Tianluo Pan, Liang Zhou, Junshu Chen, Yang Qiu, Bin Xi, Iam Keong Sou, Dapeng Yu, Wei-Qiang Chen, Hongtao He, Fei Ye, Jia-Wei Mei, Gan Wang
How an interfacial superconductivity
emerges during the nucleation
and epitaxy is of great importance not only for unveiling the physical
insights but also for finding a feasible way to tune the superconductivity
via interfacial engineering. In this work, we report the nanoscale
creation of a robust and relatively homogeneous interfacial superconductivity
(TC ≈ 13 K) on the epitaxial FeTe
surface, by van der Waals epitaxy of single-quintuple-layer topological
insulator Bi2Te3. Our study suggests that the
superconductivity in the Bi2Te3/FeTe heterostructure
is generated at the interface and that the superconductivity at the
interface does not enhance or weaken with the increase of the Bi2Te3 thickness beyond 1 quintuple layer (QL). The
observation of the topological surface states crossing Fermi energy
in the Bi2Te3/FeTe heterostructure with the
average Bi2Te3 thickness of about 20 QL provides
further evidence that this heterostructure may potentially host Majorana
zero modes.