Effect of number scaling on entangled states in quantum mechanics

TL;DR

This paper explores how number scaling influences entangled states in quantum mechanics, extending previous work to multi-particle systems and proposing fiber bundle models to describe these effects.

Contribution

It introduces a generalized scaling field affecting entangled states and demonstrates fiber bundle frameworks for multi-particle scaling effects in quantum mechanics.

Findings

Number scaling impacts entangled quantum states.

Fiber bundle models effectively describe multi-particle scaling effects.

Extended the understanding of scaling effects beyond single particles.

Abstract

A summary of number structure scaling is followed by a description of the effects of number scaling in nonrelativistic quantum mechanics. The description extends earlier work to include the effects on the states of two or more interacting particles. Emphasis is placed on the effects on entangled states. The resulting scaling field is generalized to describe the effects on these states. It is also seen that one can use fiber bundles with fibers associated with single locations of the underlying space to describe the effects of scaling on arbitrary numbers of particles.