Pilot wave model without configuration or Fock spaces

Roman Sverdlov

arXiv:1011.3356·physics.gen-ph·December 7, 2010

Pilot wave model without configuration or Fock spaces

Roman Sverdlov

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TL;DR

This paper proposes a local and deterministic interpretation of quantum phenomena using two different metrics with distinct speeds of light, introducing superluminal signals to explain quantum effects.

Contribution

It introduces a novel model employing two metrics and superluminal signals to interpret quantum phenomena without relying on configuration or Fock spaces.

Findings

01

Superluminal signals explain quantum correlations.

02

Two-metric framework provides a local deterministic interpretation.

03

Model avoids traditional quantum formalism complexities.

Abstract

The goal of this article is to come up with interpretation of quantum phenomena that is both local and deterministic. This is done by the means of envoking two different metrics, $g_{o}$ and $g_{s}$ . These two metrics give very different "speeds of light": $c_{o}$ and $c_{s}$ , respectively. The $g_{o}$ and $c_{o}$ are, respectively, "ordinary" metric and speed of light that we are used to. On the other hand, $c_{s}$ is superluminal. In this paper I propose a model in which newly introduced signals, which are subject to $g_{s}$ , are responsible for key quantum phenomena.

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Taxonomy

TopicsQuantum Mechanics and Applications · Quantum optics and atomic interactions · Quantum Information and Cryptography