Pregeometric modelling of the spacetime phenomenology

Reginald T. Cahill; Christopher M. Klinger (Dept. of Physics; Flinders; University)

arXiv:gr-qc/9605018·gr-qc·October 28, 2009

Pregeometric modelling of the spacetime phenomenology

Reginald T. Cahill, Christopher M. Klinger (Dept. of Physics, Flinders, University)

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TL;DR

This paper explores a pregeometric approach to spacetime, aiming to derive classical and geometric phenomena from a fundamental quantum system without assuming traditional structures.

Contribution

It introduces a Heraclitean Quantum System as a novel pregeometric model for space and time, emphasizing emergence over assumption.

Findings

01

Progress in developing a pregeometric quantum model

02

Emergence of spacetime phenomena from quantum systems

03

Foundation for unifying quantum theory and geometry

Abstract

At present we have only the very successful but phenomenological Einstein geometrical modelling of the spacetime phenomenon. This geometrical model provides a `container' for other theories, in particular the quantum field theories. Here we report progress in developing a {\em Heraclitean Quantum System}. This is a particular pregeometric theory for space and time in which no classical or geometric structures are assumed, but rather the emergence of such phenomena is sought.

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