Possible formation of ring galaxies by torus-shaped magnetic wormholes

TL;DR

This paper hypothesizes that some ring galaxies could originate from relic magnetic torus-shaped wormholes trapping baryons in the early universe, leading to unique ring-like structures with distinctive magnetic fields.

Contribution

It introduces a novel hypothesis linking magnetic wormholes to the formation of ring galaxies, proposing a mechanism involving baryon trapping and magnetic fields in the early universe.

Findings

Magnetic wormholes could trap baryons, forming torus-shaped clumps.

These clumps may seed ring galaxy formation with minimal dark matter.

Presence of large-scale toroidal magnetic fields is a key feature.

Abstract

We present the hypothesis that some of ring galaxies were formed by relic magnetic torus - shaped wormholes. In the primordial plasma before the recombination magnetic fields of wormholes trap baryons whose energy is smaller than a threshold energy. They work as the Maxwell's demons collecting baryons from the nearest (horizon size) region and thus forming clumps of baryonic matter which have the same torus-like shapes as wormhole throats. Such clumps may serve as seeds for the formation of ring galaxies and smaller objects having the ring form. Upon the recombination torus-like clumps may decay and merge. Unlike galaxies, such objects may contain less or even no dark matter in halos. However the most stringent feature of such objects is the presence of a large - scale toroidal magnetic field. We show that there are threshold values of magnetic fields which give the upper and lower boundary values for the baryon clumps in such protogalaxies.