Quantum aspect of the classical dynamics

Andrei K. Pogrebkov (Steklov Mathematical Institute; Moscow; RF)

arXiv:2407.16018·math-ph·July 24, 2024

Quantum aspect of the classical dynamics

Andrei K. Pogrebkov (Steklov Mathematical Institute, Moscow, RF)

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TL;DR

This paper reveals that certain quantum phenomena like particle creation, annihilation, and dark energy can be understood through classical mechanics models, bridging classical and quantum physics insights.

Contribution

It demonstrates that quantum effects can emerge from classical models such as Calogero--Moser and Ruijsenaars-Schneider systems, offering a new perspective on quantum phenomena.

Findings

01

Quantum effects are derivable from classical models.

02

Classical systems can exhibit phenomena typically associated with quantum mechanics.

03

Insights into dark energy and particle dynamics from classical frameworks.

Abstract

We show that some quantum effects, such as the creation and annihilation of particles and the existence of dark energy, actually arise in study of known models of classical mechanics, such as the Calogero--Moser and Ruijsenaars-Schneider systems.

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