Granular: Granular Stochastic Space-time: The Nature of Time

Carlton Frederick

arXiv:1601.07171·quant-ph·May 18, 2022·1 cites

Granular: Granular Stochastic Space-time: The Nature of Time

Carlton Frederick

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TL;DR

This paper explores a geometric interpretation of quantum wave functions through the concept of granular space-time, suggesting that time itself has a complex structure with a rolled-up imaginary component, offering new insights into the nature of time.

Contribution

It introduces a novel geometric framework for understanding quantum wave functions via granular space-time and complex time dimensions.

Findings

01

Time symmetry is deduced from the complex structure of time.

02

Quantum wave function {} is interpreted geometrically within granular space-time.

03

Time's imaginary component is proposed to be rolled-up, affecting its symmetry and properties.

Abstract

Granular space-time posits that everything can be expressed as a function of space-time and matter. And this includes the quantum wave function {\Psi} . To give a geometric interpretation of {\Psi} , we first need to examine time. The fact that the wave function is complex results in the time dimension also being complex with the imaginary component being rolled-up. The symmetry of time is deduced.

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Taxonomy

TopicsQuantum Mechanics and Applications