RFT Data Watch

Tracking key experimental tests of Resonant Field Theory predictions

Last updated: January 13, 2025

🌊 LIGO Gravitational Wave Echoes

O5 Run Starting 2025

RFT Prediction

  • Echo delay: Δt = 0.1s × (M/30M☉)
  • Amplitude: ~1% of ringdown
  • Decay rate: Each echo ~50% weaker

Current Status

Jan 2025: O4 run complete, data analysis ongoing
Dec 2024: Tentative hints in GW190521 (p-value = 0.08)
Reference: Abedi et al. (2016) - Echo search methodology

Next Milestone

O5 sensitivity upgrade complete by March 2025

🔭 Euclid Dark Energy Survey

Early Release Data Available

RFT Prediction

  • w₀: -0.991 ± 0.001
  • wₐ: +0.021 ± 0.005
  • Deviation from ΛCDM: Detectable at 3σ

Current Status

Jan 2025: Early release data shows w₀ = -0.98 ± 0.05
Nov 2024: 14% of sky surveyed, 100M+ galaxy redshifts
Reference: ESA Euclid Mission

Next Milestone

Data Release 1 (DR1) expected July 2025

⚛️ LHC Scalaron Search

Run 3 Analysis Ongoing

RFT Prediction

  • 750 GeV resonance: σ ~ 6 fb (2015 excess not confirmed; theoretical framework remains)
  • 2.4 TeV scalaron: σ ~ 0.1 fb
  • Higgs coupling mod: δλₕ = 0.1257

Current Status

Jan 2025: 750 GeV excess not confirmed in updated data; theoretical prediction framework remains under investigation for alternative mass scales
Dec 2024: Run 3 integrated luminosity: 140 fb⁻¹
Reference: CMS Run 3 Results

Next Milestone

Full Run 3 analysis by mid-2025

📡 CMB Anomalies

Planck Final Data

RFT Prediction

  • Low-ℓ suppression: 15% at ℓ < 30
  • Hemispherical asymmetry: A = 0.07
  • Cold spot significance: 3.5σ

Current Status

Current: Planck confirms all three anomalies
Significance: Individual p-values < 0.01
Reference: Planck 2018 Results

Analysis Status

✓ RFT predictions match observed anomalies

About This Page

This page tracks the experimental status of RFT's key predictions. Data is updated monthly based on official releases from experimental collaborations.

Methodology: We report only published results or official collaboration statements. P-values and significance levels use standard frequentist statistics.