Is the Consequence of Superluminal Signalling to Physics Absolute Motion through an Ether?

TL;DR

This paper explores the implications of superluminal signalling on absolute motion and space-time, proposing an ether-based framework that challenges the relativity of motion and revisits classical paradoxes.

Contribution

It develops a materialistic, absolute framework for space and motion incorporating superluminal signals, deriving an 'Ether Transformation' and analyzing its effects on relativity.

Findings

Reciprocal Lorentz Transform fails under superluminal signalling

An 'Ether Transformation' and velocity addition law are derived

The Twin's Paradox is reconsidered in an absolute context

Abstract

In an earlier paper the author expounded an interferometer scheme to communicate classical data over an entangled quantum channel. We return to this concept to show that the laws of Quantum Mechanics are not violated and that the device is able to affect the statistical blend of the quantum states (and that this can be detected) but not the statistics - i.e. the physics of observables. The ideas of superluminal information transfer, discussed in the previous paper, are taken forward to develop a notion of absolute space, time and motion with relativistic effects ascribed to motion through an absolute reference frame - as the logical consequences dictate, permeated with a material causing the 'relativistic' effects. The reciprocal nature of the Lorentz Transform is shown to fail under superluminal signalling - one frame will be absolutely time dilated and length contacted; thus a full 'Ether Transformation' (though this cannot be a group) and a velocity addition law are derived, the Twin's Paradox is reconsidered. It would seem, in Special Relativity at least, that the phenomenological effects of motion are placed in an absolute, logical, materialistic setting, rather than a confusing relative one that, perhaps, allows no further inspection of just 'what it is' causing the effects. The author then discusses whether this programme can be carried forward into General Relativity with the space-time distortions ascribable to changes in the properties of the ether but on the whole describable in 3-space.