Quantum Holonomy based in a Kaluza-Klein description for defects in   $C_{60}$ fullerenes

Everton Cavalcante; Claudio Furtado

arXiv:2103.14416·cond-mat.mes-hall·June 24, 2021

Quantum Holonomy based in a Kaluza-Klein description for defects in $C_{60}$ fullerenes

Everton Cavalcante, Claudio Furtado

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TL;DR

This paper introduces a novel quantum holonomy approach around topological defects in $C_{60}$ fullerenes using a Kaluza-Klein extra dimension framework, exploring implications for quantum computing.

Contribution

It proposes a new method combining quantum holonomy and Kaluza-Klein theory to analyze defects in fullerenes, suggesting potential for qubits development.

Findings

01

Quantum holonomy around fullerene defects modeled using Kaluza-Klein theory

02

Extra dimension may enable new quantum degrees of freedom

03

Potential applications in quantum computation discussed

Abstract

In this paper, we discuss a new way to get a quantum holonomy around topological defects in $C_{60}$ fullerenes. For this, we use a Kaluza-Klein extra dimension approach. Furthermore, we discuss how an extra dimension could promote the formation of new freedom degrees which would open a discussion about a possible qubits computation.

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