What question did this study set out to answer?

The research aims to predict the signal strength of Higgs production associated with top-quarks in the H→μμ channel using the ECOF framework.

March 12, 2026Open Access

ECOF Prediction: Enhanced ttH Production in the H→μμ Channel

Key Points

The research aims to predict the signal strength of Higgs production associated with top-quarks in the H→μμ channel using the ECOF framework.
Utilized the Energy-Consciousness Observer Framework (ECOF)
Analyzed suppressive and interference sources
Established predictions for Run 3 test program
Proposed testing using ATLAS+CMS Run 3 data
Predicted signal strength μ_ttH = 1.55 ± 0.45, a 55% enhancement over Standard Model expectations
Identified critical testable predictions for future experiments
Established the most extreme prediction within the ECOF framework

Abstract

Abstract The Energy-Consciousness Observer Framework (ECOF) predicts that deviations from Standard Model expectations scale multiplicatively when multiple suppression and interference sources combine. Top-quark-associated Higgs production (ttH) with H→μμ decay represents a unique confluence of three ECOF-sensitive features: rare production cross-section (σₜtH ≈ 0. 5 pb), suppressed decay branching ratio (BR ≈ 2. 2 × 10 ⁴), and ⁻ top-quark loop interference complexity. We predict a signal strength μₜtH = 1. 55 ± 0. 45, representing a 55% enhancement over Standard Model expectations. This constitutes the most extreme prediction in the ECOF Run 3 test program and provides a critical falsification target. The prediction is testable with combined ATLAS+CMS Run 3 data and will be definitively resolved at the High-Luminosity LHC. This timestamped prediction establishes priority before any ttH (H→μμ) measurements are published.

ECOF Prediction: Enhanced ttH Production in the H→μμ Channel

Key Points

Abstract

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