Ten Equations that Shook the Quantum World: Bose-Einstein Condensation,   Superfluidity, and the Quantum-Classical Transition

Phil Attard

arXiv:2501.16363·physics.gen-ph·January 29, 2025

Ten Equations that Shook the Quantum World: Bose-Einstein Condensation, Superfluidity, and the Quantum-Classical Transition

Phil Attard

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TL;DR

This paper explains the quantum-classical transition, Bose-Einstein condensation, and superfluidity through ten fundamental equations, providing a concise mathematical framework for these quantum phenomena.

Contribution

It presents a novel, equation-based explanation linking key quantum phenomena to the transition from quantum to classical physics.

Findings

01

Clarifies the role of specific equations in quantum phenomena

02

Connects Bose-Einstein condensation with superfluidity

03

Provides a unified mathematical perspective

Abstract

The transition from the quantum to the classical world and its relation to Bose-Einstein condensation and superfluidity is explained in ten equations.

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Taxonomy

TopicsQuantum Mechanics and Applications