On Self Sustained Photonic Globes

TL;DR

This paper explores the concept of a dense photon collection forming a self-sustained globe under gravity, suggesting such structures could resemble black holes or the universe itself, with implications for understanding cosmic density.

Contribution

It introduces the idea of a self-sustained photonic globe with a radius near the Schwarzschild radius, linking photon density to cosmic structures.

Findings

A dense photonic globe has a radius close to the Schwarzschild radius.

A large photonic globe with microwave background radiation matches the universe's average density.

Abstract

In this paper we consider a classical treatment of a very dense collection of photons forming a self-sustained globe under its own gravitational influence. We call this a "photonic globe" We show that such a dense photonic globe will have a radius closely corresponding to the Schwarzschild radius. Thus lending substance to the conjuncture that the region within the Schwarzschild radius of a black hole contains only pure radiation. As an application example, we consider the case of a very large photonic globe whose radius corresponds to the radius of the universe and containing radiation of the frequency of the microwave background (160.2 GHZ). It so turns out that such a photonic globe has an average density which closely corresponds to the observed average density of our universe.