Transitional layer at the edge of a false vacuum in a cavitation model of the Big Bang

TL;DR

This paper explores the transition layer between false and physical vacuums in a cavitation model of the Big Bang, proposing a mechanism for the formation of matter-rich regions that relate to the universe's large-scale structure.

Contribution

It introduces a novel cavitation-based model describing the transition region at the vacuum boundary during the Big Bang, linking it to cosmic cellular structures.

Findings

Formation of a narrow matter-filled layer at the vacuum boundary

Transition layer as a precursor to cosmic cellular bridges

Insights into early universe structure formation

Abstract

This paper considers the structure and physical processes in the transition region at the border between the regions of false and physical vacuums in a cavitation model of the inflationary stage of the Big Bang. It is shown that in the process of the formation of physical vacuum bubbles in a false vacuum, conditions for the formation of a narrow layer filled with matter arise in the transition region, which is the precursor to bridges in the observed large-scale cellular structure of the universe.