Nonlocal and relativistic behavior from a mutual physical base: a toy model

TL;DR

This paper introduces a toy model exploring nonlocal and relativistic quantum behaviors based on topological defects in solids, challenging traditional views and suggesting new avenues for understanding quantum objects.

Contribution

It proposes a novel toy model linking nonlocal quantum phenomena to topological defects, offering fresh insights into the nature of quantum objects.

Findings

Model indicates potential nonlocal effects from topological defects

Suggests a connection between classical defects and quantum properties

Reopens discussion on the nature of quantum objects

Abstract

Classical objects have been excluded as subjects of the observed quantum properties, and the related problem of the nature of quantum objects has been suspended since the early days of Quantum Theory. Recent experiments show that the problem could be reasonably revisited. The presented model indicates new issues which could result from exploring a specific kind of objects: topological defects in solids.