Quantum Gravity Wormholes and Topological Teleporter

TL;DR

This paper explores how quantum gravity effects can induce wormholes in galactic dark matter models, leading to potential space separation and a topological teleportation event.

Contribution

It demonstrates a mechanism for wormhole formation via quantum gravity-induced negative energy components in a galactic model, introducing a novel topological teleportation concept.

Findings

Wormholes form when density and pressures become negative due to quantum effects.

A detached space bubble appears during wormhole opening.

A dual solution suggests a topological teleportation event.

Abstract

The question of a possibility of opening a wormhole due to the deformation of the equation of state of the matter caused by quantum gravity effects is considered. As a wormhole environment, the previously considered model of a galaxy with radial flows of dark matter is selected. The calculation shows, that for a wormhole solution in the framework of this model, after the nominal classical density exceeds a critical value in the Planck range, the components of the energy-momentum tensor become negative in a certain order. First, the mass density becomes negative, then the radial pressure, then the tangential pressure. In this case, at some point the flare-out conditions necessary and sufficient to open the wormhole are fulfilled. Calculations are made to open a wormhole in a model with parameters of the Milky Way galaxy. It is shown that the opening of the wormhole is accompanied by a separation of the bubble of space, completely detached from the wormhole and the outer space. In addition to this solution, a topologically dual one is found, looking like an instant swapping of two volumes in space, which can be interpreted as an event of teleportation.