An effective interaction at the Planck mass and Planck length

WD Heiss

arXiv:1810.04399·gr-qc·October 11, 2018

An effective interaction at the Planck mass and Planck length

WD Heiss

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TL;DR

This paper proposes a simple model of effective interaction at the Planck scale, suggesting potential measurable effects at nucleon scales while macroscopic properties remain unchanged.

Contribution

It introduces a model assuming an effective interaction at the crossing point of Schwarzschild radius and Compton wavelength at the Planck scale.

Findings

01

Potential measurable effects at nucleon mass and size

02

Schwarzschild radius unaffected at macroscopic scales

03

Model provides a new perspective on Planck-scale interactions

Abstract

A simple model is suggested by assuming an effective interaction at the crossing point of the two curves, the Schwarzschild radius and the Compton wave length, that is at the Planck length and Planck mass. It is argued that there would be a physical effect that may be measurable at, say, nucleon mass and size, while the Schwarzschild radius would remain unaffected for macroscopic lengths and masses.

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Taxonomy

TopicsRelativity and Gravitational Theory · Experimental and Theoretical Physics Studies · Quantum Mechanics and Applications