Full-shell hybrid nanowires develop a topologically trivial skin at their ends under smooth confinement that blocks quasi-Majorana states, making tunneling spectroscopy unambiguous for true MZMs.
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cond-mat.mes-hall 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
In situ multi-angle stencil lithography enables fabrication of proximitized TI charge islands that exhibit Coulomb blockade and magnetic-field-suppressible low-energy conductance suppression consistent with induced superconductivity.
citing papers explorer
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Absence of Quasi-Majorana False Positives in Full-Shell Hybrid Nanowires
Full-shell hybrid nanowires develop a topologically trivial skin at their ends under smooth confinement that blocks quasi-Majorana states, making tunneling spectroscopy unambiguous for true MZMs.
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Proximitized Topological Insulator Charge Island Fabricated via In Situ Multi-Angle Stencil Lithography
In situ multi-angle stencil lithography enables fabrication of proximitized TI charge islands that exhibit Coulomb blockade and magnetic-field-suppressible low-energy conductance suppression consistent with induced superconductivity.