Dirac quantization condition with the superconducting state

TL;DR

This paper explores the possibility that the Dirac quantization condition reveals an underlying electromagnetic structure influencing charge and flux quantization in superconductors, proposing an experiment to test this hypothesis.

Contribution

It introduces a novel hypothesis linking Dirac quantization to a hidden electromagnetic structure and proposes an experimental setup to verify this connection.

Findings

Proposes a test to distinguish magnetic flux from positive and negative charges in superconductors

Suggests a new electromagnetic framework underlying charge and flux quantization

Provides a potential method to discover new electromagnetic structures

Abstract

The author argues that the Dirac quantization condition might imply the existence of an undiscovered electromagnetic structure which governs the quantization of the electric charge and the quantization of the magnetic flux in the superconducting state. An experimental set-up which can provide a strong evidence by predicting the discrimination between the magnetic flux generated by the positive and negative electric charge in the superconducting state is also proposed.