Direct imaging of quantum interference and Non-Abelian entanglement in Hopfion: an magnetic soliton possess loop-like anyonic properties

TL;DR

This paper experimentally demonstrates quantum topological effects in hopfions, revealing their potential for 3D topological quantum spintronics and fault-tolerant quantum computing via non-Abelian braiding.

Contribution

First experimental elucidation of quantum topological effects in hopfions, highlighting their non-Abelian properties and application potential in quantum spintronics.

Findings

Observation of quantum topological effects in hopfions

Identification of non-Abelian entanglement properties

Potential for fault-tolerant quantum operations

Abstract

This work provides the first experimental elucidation of quantum topological effects in individual hopfions, establishing their potential as building blocks for three-dimensional topological quantum spintronics. The observed Non-Abelian characteristics suggest pathways toward fault-tolerant quantum operations through controlled hopfion braiding in engineered magnetic metamaterials.