Dynamical 3-Space Gravitational Waves: Reverberation Effect

TL;DR

This paper discusses a new reverberation effect in dynamical 3-space gravitational waves, linking gravity to quantum phenomena and explaining observed turbulence and fractal structures in space.

Contribution

It predicts a novel reverberation effect in gravitational waves caused by non-linear 3-space dynamics, connecting gravity with quantum theory and experimental observations.

Findings

Detection of 3-space turbulence and fractal structure

Prediction of reverberation effects in gravitational waves

Link between gravity and quantum phenomena via fine structure constant

Abstract

Gravity theory missed a key dynamical process that became apparent only when expressed in terms of a velocity field, instead of the Newtonian gravitational acceleration field. This dynamical process involves an additional self-interaction of the dynamical 3-space, and experimental data reveals that its strength is set by the fine structure constant, implying a fundamental link between gravity and quantum theory. The dynamical 3-space has been directly detected in numerous light-speed anisotropy experiments. Quantum matter has been shown to exhibit an acceleration caused by the time-dependence and inhomogeneity of the 3-space flow, giving the first derivation of gravity from a deeper theory, as a quantum wave refraction effect. EM radiation is also refracted in a similar manner. The anisotropy experiments have all shown 3-space wave/turbulence effects, with the latest revealing the fractal structure of 3-space. Here we report the prediction of a new effect, namely a reverberation effect, when the gravitational waves propagate in the 3-space inflow of a large mass. This effect arises from the non-linear dynamics of 3-space. These reverberations could offer an explanation for the Shnoll effect, in which cosmological factors influence stochastic processes, such as radioactive decay rates.