Molecular quantum mechanical observers, symmetry, and string theory

TL;DR

This paper explores how molecular quantum mechanical observers and their symmetries relate to string theory, extending previous atomic-focused ideas to molecules and their bonds.

Contribution

It introduces an extension of the physical observer model from atoms to molecules, analyzing how molecular symmetries influence the observability of string parameters.

Findings

Molecular symmetries affect the observability of string dimensions.

Extension of quantum observer models from atoms to molecules.

Insights into the role of molecular bonds in fundamental physics.

Abstract

The paper \cite{Dance0601} tentatively suggested a physical picture that might underlie string theories. The string parameters $\tau $ and $\sigma_i $ were interpreted as spacetime dimensions which a simple quantum mechanical observer can observe, while symmetries of the relevant observer states could limit the observability of other dimensions. An atomic observer was the focus of the discussion. The present paper extends the discussion of\cite{Dance0601} to molecular observers, including the nature of some common molecular bonds and their symmetries.