What question did this study set out to answer?

This research aims to link Mass Curvature Rate theory with LIGO gravitational wave data to explore quantum and cosmological phenomena.

February 23, 2026Open Access

MUT v6.28: MCR Unified Predictions: Quantum and Cosmology with GW190412 16kHz Data

Key Points

This research aims to link Mass Curvature Rate theory with LIGO gravitational wave data to explore quantum and cosmological phenomena.
Developed a unified framework integrating MCR theory with 16kHz LIGO data.
Applied FFT analysis to high-frequency gravitational wave signals (>1 kHz).
Included mathematical derivations and Python scripts for reproducible analysis.
Identified predicted high-frequency tails in gravitational wave signals.
Provided a novel testbed for exploring quantum-scale anomalies and cosmogenesis models.

Abstract

This research presents a unified framework integrating Mass Curvature Rate (MCR) theory with high-resolution (16kHz) LIGO gravitational wave data (GW190412). By applying FFT analysis on the 16384 Hz sampled strain data, the study explores the predicted high-frequency tails (>1 kHz) in gravitational wave signals. The paper provides both mathematical derivations and Python scripts for reproducible analysis, offering a novel testbed for linking quantum-scale anomalies with cosmological phenomena. This work supports non-singular cosmogenesis models and contributes to precision astrophysical signal processing methodologies.

MUT v6.28: MCR Unified Predictions: Quantum and Cosmology with GW190412 16kHz Data

Key Points

Abstract

Cite This Study