Quantifying robustness and locality of Majorana bound states in interacting systems

A. Mert Bozkurt; Juan Daniel Torres Luna; Martin Leijnse; Michael Wimmer; Sebastian Miles; Viktor Svensson; William Samuelson

arxiv: 2510.20538 · v2 · pith:RLDFC2PQnew · submitted 2025-10-23 · ❄️ cond-mat.mes-hall · quant-ph

Quantifying robustness and locality of Majorana bound states in interacting systems

William Samuelson , Juan Daniel Torres Luna , Sebastian Miles , A. Mert Bozkurt , Martin Leijnse , Michael Wimmer , Viktor Svensson This is my paper

classification ❄️ cond-mat.mes-hall quant-ph

keywords localitystatessystemsboundbraidingdegeneracyinteractingmajorana

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Protecting qubits from perturbations is a central challenge in quantum computing. Topological superconductors with separated Majorana bound states (MBSs) provide a strong form of protection that only depends on the locality of perturbations. While the link between MBS separation, robust degeneracy, and protected braiding is well understood in non-interacting systems, recent experimental progress in short quantum-dot-based Kitaev chains highlights the need to establish these connections rigorously for interacting systems. We do this by defining MBSs from many-body ground states and show how their locality constrains their coupling to an environment. This, in turn, quantifies the protection of the energy degeneracy and the feasibility of non-abelian braiding.

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Optimal Majoranas in Mesoscopic Kitaev Chains
cond-mat.mes-hall 2026-04 unverdicted novelty 6.0

Microscopic treatment of the hybrid segment in mesoscopic Kitaev chains shows that Andreev bound state parity crossings define optimal sweet spots for localized Majoranas with large gaps.