{"paper_id":"274fa815-2c2f-4b9f-a87c-43518f83ebf0","body_text":"This is a preprint and has not been peer reviewed. Data may be preliminary.\nGravito-Electro-Magnetic (GEM) Experiment: Enhanced Theoretical Predictions from Emergent Quantum Field Theory (E-QFT)\nAbstract\nThe Gravito-ElectroMagnetic (GEM) experiment aims to detect a possible frequencydependent gravitational deflection of photons, an effect not predicted by General Relativity (GR). In this work, we present enhanced theoretical predictions derived from the Emergent Quantum Field Theory (E-QFT) framework, which posits a non-factorizable global Hilbert space structure as the foundation of all fundamental interactions. E-QFT predicts that the deflection angle ∆θ of photons near a massive object will exhibit a subtle but measurable linear dependence on photon energy, arising from the topological characteristics of the underlying quantum structure. We provide detailed numerical predictions based on realistic GEM experimental parameters, estimate the minimum angular resolution required for detection, and propose experimental enhancement strategies. Detection of the E-QFT signature would constitute a groundbreaking confirmation of a non-factorizable structure in nature, with profound implications for our understanding of quantum gravity, spacetime, and fundamental physics. This document offers a complete theoretical analysis, quantitative predictions, and practical guidelines for future experimental validation.\nSupplementary Material\nFile (gem_e-qft_prediction.pdf)\n- Download\n- 720.21 KB\nInformation & Authors\nInformation\nVersion history\nCopyright\nThis work is licensed under a Creative Commons Attribution 4.0 International License\nKeywords\nAuthors\nMetrics & Citations\nMetrics\nArticle Usage\n252views\n100downloads\nCitations\nDownload citation\nLionel Barreiro.\nGravito-Electro-Magnetic (GEM) Experiment: Enhanced Theoretical Predictions from Emergent Quantum Field Theory (E-QFT). Authorea. 28 April 2025.\nDOI: https://doi.org/10.22541/au.174585830.06944069/v1\nDOI: https://doi.org/10.22541/au.174585830.06944069/v1\nIf you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.\nFor more information or tips please see 'Downloading to a citation manager' in the Help menu.","source_license":"CC-BY-4.0","license_restricted":false}