Saved in:
Bibliographic Details
Main Authors: Hutchins, Andrew Robert, Hutchins, Helen Christina, Wells, Nova Freeman
Format: Recurso digital
Language:
Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.16929671
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866901886804688896
author Hutchins, Andrew Robert
Hutchins, Helen Christina
Wells, Nova Freeman
author_facet Hutchins, Andrew Robert
Hutchins, Helen Christina
Wells, Nova Freeman
contents <p>This paper presents a geometric model of neutrino mass, oscillation, and CP violation within the Expansion–Compaction–Torsion (ECT) framework. Neutrinos are described as partially compacted torsion shells, where mass emerges from residual geometric energy encoded in shell curvature. Flavour oscillations arise deterministically as torsion phase drift, replacing quantum superposition with classical geometric evolution.</p> <p>The model reproduces observed solar and atmospheric mass splittings, predicts sterile neutrinos as deeper shell excitations, and introduces mirror partners that stabilise oscillations through parity conjugation. A key result is the unified derivation of both the Dirac CP phase and the observed vacuum energy density from mirror shell misalignment, with a predicted mirror-locking factor of about 0.16.</p> <p>This work establishes the first framework to derive neutrino masses, oscillations, CP violation, and dark energy from a single geometric principle, without reliance on Higgs couplings or PMNS matrix phases. The model provides falsifiable predictions for upcoming long- and short-baseline neutrino experiments, offering a unified bridge between particle physics, cosmology, and geometry.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_16929671
institution Zenodo
language
publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Neutrino Masses and Oscillations as Torsion Shell Phase Drift in the Expansion–Compaction–Torsion (ECT) Framework
Hutchins, Andrew Robert
Hutchins, Helen Christina
Wells, Nova Freeman
<p>This paper presents a geometric model of neutrino mass, oscillation, and CP violation within the Expansion–Compaction–Torsion (ECT) framework. Neutrinos are described as partially compacted torsion shells, where mass emerges from residual geometric energy encoded in shell curvature. Flavour oscillations arise deterministically as torsion phase drift, replacing quantum superposition with classical geometric evolution.</p> <p>The model reproduces observed solar and atmospheric mass splittings, predicts sterile neutrinos as deeper shell excitations, and introduces mirror partners that stabilise oscillations through parity conjugation. A key result is the unified derivation of both the Dirac CP phase and the observed vacuum energy density from mirror shell misalignment, with a predicted mirror-locking factor of about 0.16.</p> <p>This work establishes the first framework to derive neutrino masses, oscillations, CP violation, and dark energy from a single geometric principle, without reliance on Higgs couplings or PMNS matrix phases. The model provides falsifiable predictions for upcoming long- and short-baseline neutrino experiments, offering a unified bridge between particle physics, cosmology, and geometry.</p>
title Neutrino Masses and Oscillations as Torsion Shell Phase Drift in the Expansion–Compaction–Torsion (ECT) Framework
url https://doi.org/10.5281/zenodo.16929671