Majorana bound states in encapsulated bilayer graphene

Author:

Peñaranda Fernando1,Aguado Ramón1,Prada Elsa1,San-Jose Pablo1

Affiliation:

1. Instituto de Ciencia de Materiales de Madrid

Abstract

The search for robust topological superconductivity and Majorana bound states continues, exploring both one-dimensional (1D) systems such as semiconducting nanowires and two-dimensional (2D) platforms. In this work we study a 2D approach based on graphene bilayers encapsulated in transition metal dichalcogenides that, unlike previous proposals involving the Quantum Hall regime in graphene, requires weaker magnetic fields and does not rely on interactions. The encapsulation induces strong spin-orbit coupling on the graphene bilayer, which opens a sizeable gap and stabilizes fragile pairs of helical edge states. We show that, when subject to an in-plane Zeeman field, armchair edges can be transformed into p-wave one-dimensional topological superconductors by contacting them laterally with conventional superconductors. We demonstrate the emergence of Majorana bound states (MBSs) at the sample corners of crystallographically perfect flakes, belonging either to the D or the BDI symmetry classes depending on parameters. We compute the phase diagram, the resilience of MBSs against imperfections, and their manifestation as a 4\piπ-periodic effect in Josephson junction geometries, all suggesting the existence of a topological phase within experimental reach.

Funder

Comunidad de Madrid

Ministerio de Economía y Competitividad

Publisher

Stichting SciPost

Subject

General Physics and Astronomy

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