Electric-Field Driven Topological Phase Transition in InAs/InGaSb Composite Quantum Wells

Hiroshi Irie; Takafumi Akiho; Yukio Takahashi; Francois Couedo; Kyoichi Suzuki; Koji Onomitsu; Koji Muraki

Electric-Field Driven Topological Phase Transition in InAs/InGaSb Composite Quantum Wells

ORAL

Abstract

Band-inverted InAs/(In,Ga)Sb composite quantum wells (CQWs) have been under intensive study as a 2D topological insulator. Among other 2D topological insulators, the CQW hosts an electrically tunable band alignment thanks to its double layer structure wherein electron and hole gases are spatially separated. This work presents electric-field-driven topological-to-normal insulator transition for recently-developed strained InAs/In_xGa_1-xSb CQWs [1, 2] with a large hybridization gap up to 35 meV. By measuring the energy gap as a function of electric field, we observed gap closing and reopening as expected for a topological phase transition. [1] T. Akiho et al., Appl. Phys. Lett. 109, 192105 (2016). [2] L. Du et al., Phys. Rev. Lett. 119, 056803 (2017).

^*This work was supported by the JSPS KAKENHI. (No. JP15H05854).

March 6, 2018, 12:51 PM – March 6, 2018, 1:03 PM

Presenters

Hiroshi Irie
- NTT Basic Research Laboratories

Authors

Hiroshi Irie
- NTT Basic Research Laboratories
Takafumi Akiho
- NTT Basic Research Laboratories
Yukio Takahashi
- NTT Basic Research Laboratories
Francois Couedo
- NTT Basic Research Laboratories
Kyoichi Suzuki
- NTT Basic Research Laboratories
Koji Onomitsu
- NTT Basic Research Laboratories
Koji Muraki
- NTT Basic Research Laboratories