On the possible connection between inertia and intrinsic angular momenta and its consequences

TL;DR

This paper explores a principle linking the universe's dynamics to particle count, revealing a deep connection between inertia and intrinsic angular momenta, with implications for particle types and cosmological phenomena.

Contribution

It proposes a novel principle constraining particle properties and cosmological models, leading to new insights into matter composition and the holographic principle.

Findings

Matter must be composed of fermions

All stable bosons are vectors and massless

New predictions about the Unruh effect

Abstract

In this paper we show the consequences of a principle, according to which the dynamics of the Universe must not depend on the number of the particles of which it is composed. The validity of such a principle lead us to the conclusion that inertia and intrinsic angular momenta are deeply interrelated between them. In particular, assuming the principles outlined in the paper, matter must be composed by fermions, all stable bosons must be vectors and massless and no scalar particles can exist in the Universe. We also apply the results to the holographic principle and found established results more naturally with respect to previous approaches as well as new predictions about the Unruh effect.