Creating Majorana modes from segmented Fermi surface

Author(s)

Papaj, Michał; Fu, Liang

Abstract

© 2021, The Author(s). Majorana bound states provide a fertile ground for both investigation of fundamental phenomena as well as for applications in quantum computation. However, despite enormous experimental and theoretical efforts, the currently available Majorana platforms suffer from a multitude of issues that prevent full realization of their potential. Therefore, improved Majorana systems are still highly sought after. Here we present a platform for creating Majorana bound states from 2D gapless superconducting state in spin-helical systems under the in-plane magnetic or Zeeman field. Topological 1D channels are formed by quantum confinement of quasiparticles via Andreev reflection from the surrounding fully gapped superconducting region. Our proposal can be realized using narrow strips of magnetic insulators on top of proximitized 3D topological insulators. This setup has key advantages that include: small required fields, no necessity of fine-tuning of chemical potential, removal of the low-energy detrimental states, and large attainable topological gap.

Date issued

2021

URI

https://hdl.handle.net/1721.1/141845

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Nature Communications

Publisher

Springer Science and Business Media LLC

Citation

Papaj, Michał and Fu, Liang. 2021. "Creating Majorana modes from segmented Fermi surface." Nature Communications, 12 (1).

Version: Final published version