Perfectly elastic collisions as origin of quantum states of superconductivity and magnetic order

TL;DR

This paper proposes a universal model based on perfectly elastic collisions to explain the origin of quantum states like superconductivity and magnetic order, successfully matching experimental data and explaining isotope effects.

Contribution

The paper introduces a novel elastic collision model as the fundamental origin of quantum states in solids, unifying superconductivity and magnetic order explanations.

Findings

Calculated critical temperatures match experimental data

The model explains the isotope effect in superconductivity

Unified description of quantum states in solids

Abstract

One of the most interesting properties of solid materials is the ability to form different collective quantum states, such as superconductivity and magnetic order. This paper presents a model of perfectly elastic collisions (p.e.c.) as the universal origin of these collective quantum states. The superb agreement between calculated values and experimental data for critical temperatures, moreover, the explanation of the isotope effect in superconductivity and magnetic order confirms that this model successfully describes these two quantum states.