The Selforganization of Vacuum, Phase Transitions and the Cosmological Constant

TL;DR

This paper explores the origin and evolution of the cosmological constant through a new theory of self-organizing vacuum structures, addressing limitations of current quantum and gravitational models.

Contribution

It proposes a novel global quantum theory where geometry and vacuum condensates evolve irreversibly, offering a dynamic perspective on the cosmological constant.

Findings

Vacuum subsystems' energy densities span all cosmic scales.

The cosmological constant transforms into a dynamical variable.

Self-organization leads to irreversible evolution of the universe's geometry.

Abstract

The problem of the physical nature and the cosmological genesis of Lambda-term is discussed. This problem can't be solved in terms of the current quantum field theory which operates with Higgs and non-perturbative vacuum condensates and takes into account the changes of these condensates during relativistic phase transitions. The problem can't be completely solved also in terms of the conventional global quantum theory: Wheeler-DeWitt quantum geometrodynamics does not describe the evolution of the Universe in time (RPT in particular). We have investigated this problem in the context of energies density of different vacuum subsystems characteristic scales of which pervaid all energetic scale of the Universe. At first the phemenological solution of Lambda-term problem and then the hypothesis about the possible structure of a new global quantum theory are proposed. The main feature of this theory is the inreversible evolution of geometry and vacuum condensates in time in the regime of their selforganization. The transformation of the cosmological constant in dynamical variable is inevitably.