Superconducting phase transition reveals an electromagnetic coupling to a scalar field potential that generates mechanical work

TL;DR

This paper investigates a phase transition in a dielectric fluid that exhibits superconducting-like diamagnetism, revealing an electromagnetic coupling to a scalar field potential that could generate mechanical work from the quantum vacuum.

Contribution

It introduces a novel interpretation of magnetic vortices as magnetic monopoles linked to a scalar field, connecting superconducting phase transitions with potential energy extraction from the quantum vacuum.

Findings

Pressure-induced diamagnetism observed in dielectric fluid

Identification of a phase transition analogous to Type II superconductivity

Proposal of a scalar field coupling enabling mechanical work extraction

Abstract

Pressure-induced, spontaneous diamagnetism associated with critical behaviour is determined experimentally in a polar dielectric fluid containing nanoscale, clathrate hydrate cage structures. As with Type II superconductivity, Abrikosov vortices come to penetrate the external diamagnetic field such that it reduces to zero for particular values of the magnet flux. The external magnetic field is thus revealed to be the order parameter that signifies a phase transition between Type II superconducting behaviour and a dual of Type I superconducting behaviour. This phase transition is described by a distinctive universality class of critical exponents. The Abrikosov vortices are interpreted as effective magnetic monopole defects associated with the non-equilibrium, geometrically frustrated system. The magnitude of the spontaneous Type I response is consistent with exponential coupling of the spontaneous magnetism with an external scalar field potential made accessible through inertia and hyperbolic geometry. Under this interpretation, magnetic monopole defects act as inhomogeneous nucleation sites able to expand or contract the volume of the system in an analogue of cosmological inflation. The quantum vacuum origin of the scalar field is held responsible for the resulting mechanical work, so representing a potentially unlimited source of zero-emissions energy.