The Quantum Collapse and the Birth of a New Universe

TL;DR

This paper explores the quantum mechanical processes involved in gravitational collapse and universe creation, proposing that new universes originate beyond event horizons, especially in miniholes, with implications for understanding cosmic origins.

Contribution

It introduces a quantum framework for universe creation during gravitational collapse, emphasizing the role of miniholes and the quantum state of matter near vacuum.

Findings

Universe creation probability is significant for miniholes.

Most mass in collapsing objects remains near the vacuum state.

Transitions involve matter annihilation and inflation processes.

Abstract

The gravitational collapse and the birth of a new universe are considered in terms of quantum mechanics. Transitions from annihilation of matter to deflation in the collapse and from inflation to creation of matter in the birth of a universe are considered. The creation of a new universe takes place in another space-time since beyond the event horizon the time coordinate is inextensible for an external observer. A reasonable probability of this creation is obtainable only for miniholes. The major part of the mass of such collapsing compact objects as stars, quasars and active nuclei of galaxies remains confined in the potential well near the vacuum state.