Chiral-Electromagnetic Gravitational Theory of Every "Thing" Evolving Gelfand-Dirac Hamilton-Riemann Quantum Cosmology

TL;DR

This paper proposes a universe model composed of fundamental entities called 'qucs' that are not physical 'things' but aggregate attributes, governed by a symmetry group, explaining particles, dark matter, and forces without elementary 'things'.

Contribution

Introduces a novel 'quc' framework and symmetry group to unify particles, dark matter, and forces without elementary entities, advancing quantum cosmology.

Findings

Qucs form the basis of all physical entities and forces.

A symmetry group governs quc evolution and interactions.

The model suggests no elementary 'things' exist, only aggregate attributes.

Abstract

The term 'quc' is shorthand here for a cosmological -- not a physical -- 'quantum-universe constituent'. Although self-adjoint Hilbert-space angular-momentum and momentum operators unitarily generate quc rotations and spatial displacements, no single-quc is a physical 'thing'. Photons, 3 generations of fermions, plus massive vector and scalar bosons -- all physicist-deemed 'elementary' -- as well as dark matter, galaxies and black holes, within an evolving universe are, we propose, each a temporary 'quc family' that aggregates 8 Noether-conserved quc attributes. No 'thing' is elementary. Here proposed is a thing-devoid 'von-Neumann big bang' -- that established a huge but finite and permanent set of speed-c chiral qucs, with 'masses' M h /2{\tau}c 2 , where M = 1, 2,... M max and {\tau} is 'universe age'. ('Quc-mass', although not physically-meaningful, has the same dimensionality as any thing 's 'mass'.) Quc-aggregate (thing) creations and disappearances -- i.e., 'evolution' -- are symmetry-governed by an 8-parameter 'centered-Lorentz' (CL) Lie group. CL's 6-parameter SL (2, c) Riemann-geometric 'exterior' of quc rotations and hyperbolic spatial displacements, has a conserved algebra of quc angular-momentum together with quc momentum times {\tau}. A 2-parameter non-geometric CL-central algebra comprises a pair of discrete coupled and conserved quc attributes -- electric charge and 'chirality'. Chirality, without any physics counterpart, renders CL a supersymmetry and provides our present universe with nuclear forces -- 'strong interactions'.