Identifying biases of the Majorana scattering invariant

Araya Day, Isidora; Manesco, Antonio L. R.; Wimmer, Michael; Akhmerov, Anton R.

doi:10.21468/SciPostPhysCore.8.3.047

SciPost Physics Core

Identifying biases of the Majorana scattering invariant

Isidora Araya Day, Antonio L. R. Manesco, Michael Wimmer, Anton R. Akhmerov

SciPost Phys. Core 8, 047 (2025) · published 4 July 2025

doi: 10.21468/SciPostPhysCore.8.3.047
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Abstract

The easily accessible experimental signatures of Majorana modes are ambiguous and only probe topology indirectly: for example, quasi-Majorana states mimic most properties of Majoranas. Establishing a correspondence between an experiment and a theoretical model known to be topological resolves this ambiguity. Here we demonstrate that already theoretically determining whether a finite system is topological is by itself ambiguous. In particular, we show that the scattering topological invariant—a probe of topology most closely related to transport signatures of Majoranas—has multiple biases in finite systems. For example, we identify that quasi-Majorana states also mimic the scattering invariant of Majorana zero modes in intermediate-sized systems. We expect that the bias due to finite size effects is universal, and advocate that the analysis of topology in finite systems should be accompanied by a comparison with the thermodynamic limit. Our results are directly relevant to the applications of the topological gap protocol.

TY  - JOUR
PB  - SciPost Foundation
DO  - 10.21468/SciPostPhysCore.8.3.047
TI  - Identifying biases of the Majorana scattering invariant
PY  - 2025/07/04
UR  - https://scipost.org/SciPostPhysCore.8.3.047
JF  - SciPost Physics Core
JA  - SciPost Phys. Core
VL  - 8
IS  - 3
SP  - 047
A1  - Araya Day, Isidora
AU  - Manesco, Antonio L. R.
AU  - Wimmer, Michael
AU  - Akhmerov, Anton R.
AB  - The easily accessible experimental signatures of Majorana modes are ambiguous and only probe topology indirectly: for example, quasi-Majorana states mimic most properties of Majoranas. Establishing a correspondence between an experiment and a theoretical model known to be topological resolves this ambiguity. Here we demonstrate that already theoretically determining whether a finite system is topological is by itself ambiguous. In particular, we show that the scattering topological invariant—a probe of topology most closely related to transport signatures of Majoranas—has multiple biases in finite systems. For example, we identify that quasi-Majorana states also mimic the scattering invariant of Majorana zero modes in intermediate-sized systems. We expect that the bias due to finite size effects is universal, and advocate that the analysis of topology in finite systems should be accompanied by a comparison with the thermodynamic limit. Our results are directly relevant to the applications of the topological gap protocol.
ER  -

@Article{10.21468/SciPostPhysCore.8.3.047,
	title={{Identifying biases of the Majorana scattering invariant}},
	author={Isidora Araya Day and Antonio L. R. Manesco and Michael Wimmer and Anton R. Akhmerov},
	journal={SciPost Phys. Core},
	volume={8},
	pages={047},
	year={2025},
	publisher={SciPost},
	doi={10.21468/SciPostPhysCore.8.3.047},
	url={https://scipost.org/10.21468/SciPostPhysCore.8.3.047},
}

Supplementary Information

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Ontology / Topics

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Majorana bound states Topological superconductivity Transport

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¹ Technische Universiteit Delft / Delft University of Technology [TU Delft]

Funder for the research work leading to this publication

Nederlandse Organisatie voor Wetenschappelijk Onderzoek / Netherlands Organisation for Scientific Research [NWO]