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Main Authors: Mizuno, Kyosuke, Takarabe, Yuto, Takane, Yositake
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.02737
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author Mizuno, Kyosuke
Takarabe, Yuto
Takane, Yositake
author_facet Mizuno, Kyosuke
Takarabe, Yuto
Takane, Yositake
contents One-dimensional topological superconductors accommodate a pair of Majorana zero modes at their ends. In an interferometer containing such a topological superconductor, electron transport is significantly affected by the Majorana zero modes constituting a nonlocal state localized near both ends of the superconductor. When the number of electrons $\mathcal{N}$ in the superconductor is constrained by a charging effect, the resonant tunneling through the nonlocal state is expected to result in unusual transport properties. This resonant tunneling, called electron teleportation, is not easy to describe because there is no simple method to handle the constraint on $\mathcal{N}$. Here, we propose a boundary potential method based on scattering theory for calculating the conductance of the interferometer under a given constraint on $\mathcal{N}$. This method enables us to calculate the conductance taking account of relevant charging energy and details of the system.
format Preprint
id arxiv_https___arxiv_org_abs_2604_02737
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Boundary Potential Method for Describing Electron Teleportation in an Interferometer with a Topological Superconductor
Mizuno, Kyosuke
Takarabe, Yuto
Takane, Yositake
Mesoscale and Nanoscale Physics
One-dimensional topological superconductors accommodate a pair of Majorana zero modes at their ends. In an interferometer containing such a topological superconductor, electron transport is significantly affected by the Majorana zero modes constituting a nonlocal state localized near both ends of the superconductor. When the number of electrons $\mathcal{N}$ in the superconductor is constrained by a charging effect, the resonant tunneling through the nonlocal state is expected to result in unusual transport properties. This resonant tunneling, called electron teleportation, is not easy to describe because there is no simple method to handle the constraint on $\mathcal{N}$. Here, we propose a boundary potential method based on scattering theory for calculating the conductance of the interferometer under a given constraint on $\mathcal{N}$. This method enables us to calculate the conductance taking account of relevant charging energy and details of the system.
title Boundary Potential Method for Describing Electron Teleportation in an Interferometer with a Topological Superconductor
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2604.02737