Real time observation of a stationary magneton

TL;DR

This paper demonstrates real-time visualization of the quantum magnetic field of a stationary magneton using a submicron resolution optical sensor, revealing the flux pattern responsible for classical magnetism.

Contribution

It introduces a method to observe the quantum magnetic field of a magneton at macroscale, bridging quantum and classical magnetic phenomena.

Findings

Quantum Magnet Field (QFM) can be visually observed on macroscale magnets.

The magnetic flux of a magneton has a dipole vortex shape.

The observed flux pattern explains classical magnetic fields.

Abstract

The magnetic dipole field geometry of subatomic elementary particles like the electron differs from the classical macroscopic field imprint of a bar magnet. It resembles more like an eight figure or else joint double quantum-dots instead of the classical, spherical more uniform field of a bar magnet. This actual subatomic quantum magnetic field of an electron at rest, is called Quantum Magnet or else a Magneton. Normally, a macroscale bar magnet should behave like a relative giant Quantum Magnet with identical magnetic dipole field imprint since all of its individual magnetons collectively inside the material, dipole moments are uniformly aligned forming the total net field of the magnet. However due to Quantum Decoherence (QDE) phenomenon at the macroscale and macroscopic magnetic field imaging sensors limitations which cannot pickup these rapid quantum magnetization fluctuations, this field is masked and not visible at the macroscale. By using the relative inexpensive submicron resolution Ferrolens quantum magnetic optical sensor and method, we can actually make this net magneton field visible on macroscale magnets. We call this net total field herein, Quantum Field of Magnet (QFM) differentiating it therefore from the field of the single subatomic magneton thus quantum magnet. Additionally, the unique potential of the Ferrolens device to display also the magnetic flux lines of this macroscopically projected giant Magenton gives us the unique opportunity to study the individual magnetic flux lines geometrical pattern that of a single subatomic magneton. We describe this particular magnetic flux of the magneton observed, quantum magnetic flux. Therefore a novel observation has been made that the QFM of the Magnet-Magneton consists of a dipole vortex shaped magnetic flux geometrical pattern responsible for creating the classical macroscopic N-S field of the magnet.