Journal of Theoretical Physics & Mathematics Research
ISSN: 3065-8802 | DOI: 10.64030/3065-8802
Mano Fonooni
The Fonooni Temporal Field Theory (FTFT) introduces a tempo- ral scalar field �?T (m�?T ∼ 150 GeV, coupling gT ∼ 0.18) to govern
quantized time dynamics, predicting temporal asymmetries (Δt ∼ 1.5 fs) in particle decays, gravitational wave (GW) echoes at
1387 Hz, rare decays (B → K�?T , BR ∼ 10−8), cosmic microwave back- ground (CMB) anomalies, and attoscale non-local effects. We
extend FTFT’s formulation with non-local temporal couplings and cosmolog- ical interactions, embedding it in Heterotic String
Theory’s E8 × E8 framework to derive an SO(10) Grand Unified Theory (GUT). Integra- tion with the Minimal Supersymmetric
Standard Model (MSSM) via �?T -slepton terms enhances same-sign dilepton (SSDL) events at the High-Luminosity LHC (HL-LHC).
A 100,000-event MadGraph sim- ulation yields ∼ 320 signal events with a significance of SΔt ∼ 8.2, testable with the CMS MIPTiming
Detector by 2029. Compatibility with Loop Quantum Gravity (LQG) unifies FTFT with quantum grav- ity. Experimental
validations include GW echoes (LIGO A+, 2026), rare decays (Belle II, 2027), and CMB anomalies (Simons Observatory, 2030s).
This work establishes FTFT as a unified, testable framework bridging particle physics, gravity, and cosmology.