Spectral properties, topological patches, and effective phase diagrams of finite disordered Majorana nanowires

TL;DR

This paper theoretically investigates how correlated disorder in finite Majorana nanowires affects topological superconductivity and the emergence of Majorana zero modes, revealing complex behaviors and implications for experiments.

Contribution

It provides a detailed analysis of disorder effects on Majorana nanowires, highlighting the complex interplay between disorder, finite size, and topological signatures, and discusses implications for experimental detection.

Findings

Disorder induces low-energy in-gap states complicating Majorana detection.

Zero bias peaks can occur without true Majorana zero modes.

Topological patches may appear in small parameter regions.

Abstract

We consider theoretically the physics of bulk topological superconductivity accompanied by boundary non-Abelian Majorana zero modes in semiconductor-superconductor (SM-SC) hybrid systems consisting of finite wires in the presence of correlated disorder arising from random charged impurities. We find the system to manifest a highly complex behavior due to the subtle interplay between finite wire length and finite disorder, leading to copious low-energy in-gap states throughout the wire and considerably complicating the interpretation of tunneling spectroscopic transport measurements used extensively to search for Majorana modes. The presence of disorder-induced low-energy states may lead to the non-existence of end Majorana zero modes even when tunneling spectroscopy manifests zero bias conductance peaks in local tunneling and signatures of bulk gap closing/reopening in the nonlocal transport. In short wires within the intermediate disorder regime, apparent topology may manifest in small ranges ("patches") of parameter values, which may or may not survive the long wire limit depending on various details. Because of the dominance of disorder-induced in-gap states, the system may even occasionally have an appropriate topological invariant without manifesting isolated end Majorana zero modes. We discuss our findings in the context of a recent breakthrough experiment from Microsoft reporting the simultaneous observations of zero bias conductance peaks in local tunneling and gap opening in nonlocal transport within small patches of parameter space. Based on our analysis, we believe that the disorder strength to SC gap ratio must decrease further for the definitive realization of non-Abelian Majorana zero modes in SM-SC devices.