Superconductivity, superfluidity and zero-point oscillations

TL;DR

This paper proposes that the ordering of zero-point oscillations in electron gases explains superconductivity and superfluidity, providing a unified physical mechanism for both phenomena and matching experimental data.

Contribution

It introduces a model where zero-point oscillation ordering causes superconductivity and superfluidity, offering new estimates for critical parameters consistent with observations.

Findings

Zero-point oscillation ordering explains superconductivity.

The model estimates critical parameters aligning with experimental data.

Superfluidity in helium isotopes is similarly explained.

Abstract

Currently it is thought that in order to explain the phenomenon of superconductivity is necessary to understand the mechanism of formation of electron pairs. However, the paired electrons cannot form a superconducting condensate. They perform disorderly zero-point oscillations and there are no attractive forces in their ensemble. To create a unified ensemble of particles, the pairs must order their zero-point fluctuations so that an attraction between the particles appears. For this reason, the ordering of zero-point oscillations in the electron gas is the cause of superconductivity and the parameters characterizing this order determine the properties of superconductors. The model of condensation of zero-point oscillations creates the possibility to obtain estimates for the critical parameters of elementary superconductors, which are also in the satisfactory agreement with measured data. On the another hand, the phenomenon of superfluidity in He-4 and He-3 can be similarly explained due to the ordering of zero-point fluctuations. Thus it is established that the both related phenomena are based on the same physical mechanism.