Controllable Strain-driven Topological Phase Transition and Dominant Surface State Transport in High-Quality HfTe5 Samples

Autor: Liu, Jinyu, Zhou, Yinong, Rodriguez, Sebastian Yepez, Delmont, Matthew A., Welser, Robert A., Sirica, Nicholas, McClure, Kaleb, Vilmercati, Paolo, Ziller, Joseph W., Mannella, Norman, Sanchez-Yamagishi, Javier D., Pettes, Michael T., Wu, Ruqian, Jauregui, Luis A.
Rok vydání: 2023
Předmět:
Druh dokumentu: Working Paper
Popis: Controlling materials to create and tune topological phases of matter could potentially be used to explore new phases of topological quantum matter and to create novel devices where the carriers are topologically protected. It has been demonstrated that a trivial insulator can be converted into a topological state by modulating the spin-orbit interaction or the crystal lattice. However, there are limited methods to controllably and efficiently tune the crystal lattice and at the same time perform electronic measurements at cryogenic temperatures. Here, we use large controllable strain to demonstrate the topological phase transition from a weak topological insulator phase to a strong topological insulator phase in high-quality HfTe5 samples. After applying high strain to HfTe5 and converting it into a strong topological insulator, we found that the sample's resistivity increased by more than two orders of magnitude (24,000%) and that the electronic transport is dominated by the topological surface states at cryogenic temperatures. Our findings show that HfTe5 is an ideal material for engineering topological properties, and it could be generalized to study topological phase transitions in van der Waals materials and heterostructures. These results can pave the way to create novel devices with applications ranging from spintronics to fault-tolerant topologically protected quantum computers.
Databáze: arXiv