Ontological Fluctuating Lattice Cut Off

TL;DR

This paper develops a model linking energy scales of fundamental physics to a fluctuating lattice structure, accurately predicting fine structure constants and their differences at the Z-boson mass.

Contribution

It introduces a novel approach connecting fluctuating lattice link lengths to energy scales and fine structure constants, providing precise theoretical predictions matching experimental data.

Findings

Predicted the difference between inverse fine structure constants at MZ as 21.20, close to the experimental 21.13.

Established a linear relation between lattice link powers and logarithms of energy scales.

Demonstrated the concept of a fluctuating lattice underlying fundamental physical constants.

Abstract

Remarkably accurate fine structure constants are calculated from assumptions further developed from two earlier publications. We have put together a series of energy scales related to various physical phenomena such as the Planck scale, a scale, which we call ``fermion tip'' being a certain extrapolation related to the heaviest Fermions in the Standard Model, an approximate SU(5) unification scale (without susy); and then we found, that as function of the power of an imagined lattice link length supposedly relevant for the scale in question, these powers are rather well linearly related to the logarithms of the associated energy scales. The coincidence of these scales fitting a straight line is remarkable and in some cases quite intriguing. It is evidence for Nature truly having a fluctuating lattice, meaning, that the size of the links say fluctuate quantum mechanically. We review a self-reference obtaining the three fine structure constants via three theoretically predictable quantities, among which is a scale on our straight line plot, namely for an approximate SU(5)-like unification (SU(5) coupling relations are only true in a classical approximation). Concentrating on the four energy scales, for which most precise numbers make sense (this is new in the present article), we interpolate to the approximate unification scale to such an accuracy, that it combined with the quantum corrections making the deviation from genuine SU(5) delivers the differences between the three inverse fine structure constants agreeing within errors being a few units on the second place after the comma! E.g. we predict the difference between the non-abelian inverse fine structure constants at the Z-mass MZ to be (1/alpha2 - 1/alpha3)(M_Z)predict=29.62-8.42 =21.20, while the experimental difference is 29.57-8.44=21.13 both with uncertainties of order +/- 0.05.