Equilibrium Distributions and Superconductivity

TL;DR

This paper discusses models of charge distributions and introduces a new model for superconductivity, demonstrating how finite energy models and variation principles can explain experimental results in superconductors.

Contribution

It proposes a new superconductivity model and emphasizes the importance of finite energy charge distributions and variation principles in explaining experimental data.

Findings

Finite energy charge distribution models align with experimental results.

A new superconductivity model can explain key experimental observations.

Variation principles are crucial in understanding stationary states in charge distributions.

Abstract

In this article two models for charges distributions are discussed. On the basis of our consideration we put different points of view for stationary state. We prove that only finite energy model for charges' distribution and well-known variation principle explain some well-known experimental results. A new model for superconductivity was suggested, too. In frame of that model some characteristic experimental results for superconductors is possible to explain.