Bell's Conjecture and Faster-Than-Light Communication

Luiz Carlos Ryff

arXiv:0903.1076·quant-ph·April 13, 2009·2 cites

Bell's Conjecture and Faster-Than-Light Communication

Luiz Carlos Ryff

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Open Access

TL;DR

This paper explores Bell's conjecture and demonstrates that if B-waves propagate with finite superluminal velocity, then faster-than-light communication could be theoretically possible.

Contribution

It introduces the B-wave hypothesis with finite superluminal velocity as a basis for potential FTL communication, expanding on Bell's conjecture.

Findings

01

FTL communication is theoretically possible under the B-wave assumption

02

Superluminal but finite B-wave velocity enables FTL signaling

03

Supports Bell's conjecture with a new hypothetical mechanism

Abstract

The Bell-wave (B-wave) supposition has been introduced in an attempt to investigate Bell's conjecture (according to which "behind the scenes something is going faster than light"). Here it is shown, for the case of two entangled photons, that if it is further assumed that the B-waves propagate with superluminal but finite velocity then it is possible, at least in principle, to have faster-than-light (FTL) communication.

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Taxonomy

TopicsQuantum Mechanics and Applications · Semiconductor Lasers and Optical Devices