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Main Author: Chatterjee, Dristi
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.14793221
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author Chatterjee, Dristi
author_facet Chatterjee, Dristi
contents <p>raditional quantum gravity models struggle to integrate mass-energy evolution with measurement dynamics. Recent work, such as that by Misra and Sudarshan (1977) [2], Facchi and Pascazio<br>(2008) [3], and Itano (2009) [4], examines the quantum Zeno effect’s influence on quantum systems.<br>Our work extends this by introducing an anti-Higgs measurement operator Ψ and exploring its implications on spacetime curvature, dark matter relic production, and gauge-gravity unification. We<br>derive modified Einstein-Yang-Mills equations from a unified Lagrangian featuring Zeno-suppressed<br>interactions, demonstrate SU(5) gauge coupling unification with precision ∆g<br>−2 < 0.1%, and calculate electroweak symmetry breaking corrections (∆vH/vH < 1%). The framework predicts testable<br>deviations in black hole evaporation (suppression factors ∼ 10−3<br>), gravitational wave propagation<br>(∆c/c ∼ 10−5<br>), and dark matter direct detection (σΨ ∼ 10−49 cm2<br>).</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_14793221
institution Zenodo
language
publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Higgs-Zeno Spacetime: Quantum Measurement, Dual Hamiltonians, and Mass-Energy Evolution
Chatterjee, Dristi
<p>raditional quantum gravity models struggle to integrate mass-energy evolution with measurement dynamics. Recent work, such as that by Misra and Sudarshan (1977) [2], Facchi and Pascazio<br>(2008) [3], and Itano (2009) [4], examines the quantum Zeno effect’s influence on quantum systems.<br>Our work extends this by introducing an anti-Higgs measurement operator Ψ and exploring its implications on spacetime curvature, dark matter relic production, and gauge-gravity unification. We<br>derive modified Einstein-Yang-Mills equations from a unified Lagrangian featuring Zeno-suppressed<br>interactions, demonstrate SU(5) gauge coupling unification with precision ∆g<br>−2 < 0.1%, and calculate electroweak symmetry breaking corrections (∆vH/vH < 1%). The framework predicts testable<br>deviations in black hole evaporation (suppression factors ∼ 10−3<br>), gravitational wave propagation<br>(∆c/c ∼ 10−5<br>), and dark matter direct detection (σΨ ∼ 10−49 cm2<br>).</p>
title Higgs-Zeno Spacetime: Quantum Measurement, Dual Hamiltonians, and Mass-Energy Evolution
url https://doi.org/10.5281/zenodo.14793221

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