Majorana fermions and quantum information with fractional topology and disorder

Ephraim Bernhardt; Brian Chung Hang Cheung; Karyn Le Hur

doi:10.1103/PhysRevResearch.6.023221

Majorana fermions and quantum information with fractional topology and disorder

Ephraim Bernhardt
, Brian Chung Hang Cheung
, Karyn Le Hur

CNRS

Research output: Contribution to journal › Article › peer-review

Abstract

The quest to identify and observe Majorana fermions in physics and condensed-matter systems remains an important challenge. Here, we introduce a qubit (spin-1/2) from the occurrence of two delocalized zero-energy Majorana fermions in a model of two spins-1/2 on the Bloch sphere within the fractional one-half topological state. We address specific protocols in time with circularly polarized light and the protection of this delocalized spin-1/2 state related to quantum information protocols. We also show how disorder can play a positive and important role allowing singlet-triplet transitions and resulting in an additional elongated region for the fractional phase, demonstrating the potential of this platform related to applications in topologically protected quantum information. We generalize our approach with an array and Majorana fermions at the edges in a ring geometry.

Original language	English
Article number	023221
Journal	Physical Review Research
Volume	6
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevResearch.6.023221
Publication status	Published - 1 Apr 2024

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10.1103/PhysRevResearch.6.023221

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abstract = "The quest to identify and observe Majorana fermions in physics and condensed-matter systems remains an important challenge. Here, we introduce a qubit (spin-1/2) from the occurrence of two delocalized zero-energy Majorana fermions in a model of two spins-1/2 on the Bloch sphere within the fractional one-half topological state. We address specific protocols in time with circularly polarized light and the protection of this delocalized spin-1/2 state related to quantum information protocols. We also show how disorder can play a positive and important role allowing singlet-triplet transitions and resulting in an additional elongated region for the fractional phase, demonstrating the potential of this platform related to applications in topologically protected quantum information. We generalize our approach with an array and Majorana fermions at the edges in a ring geometry.",

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Majorana fermions and quantum information with fractional topology and disorder

Abstract

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