Dynamical 3-Space: Gravitational Wave Detection and the Shnoll Effect

TL;DR

This paper proposes a new method for detecting gravitational waves and explaining the Shnoll effect by analyzing phase differences in RF EM waves in a dual coaxial cable setup, linking cosmophysical factors to space's dynamic fractal nature.

Contribution

It introduces a novel experimental approach to generate and observe Shnoll-like effects using RF EM wave phase differences in a gravitational wave detector.

Findings

Demonstrated phase difference variations correlating with cosmophysical factors

Linked space's dynamic fractal structure to scattering phenomena

Proposed a new detection method for gravitational waves

Abstract

Shnoll has investigated the non-Poisson scatter of rate measurements in various phenomena such as biological and chemical reactions, radioactive decay, photodiode current leakage and germanium semiconductor noise, and attributed the scatter to cosmophysical factors. While Shnoll didn't pinpoint the nature of the cosmophysical factors the Process Physics model of reality leads to a description of space, which is dynamic and fractal and exhibits reverberation effects, and which offers an explanation for the scattering anomaly. The work presented here shows a new way of generating the effects Shnoll discovered, through studying the phase difference of RF EM waves travelling through a dual coaxial cable Gravitational Wave Detector experiment.