Indeterministic Quantum Gravity II: Refinements and Developments

TL;DR

This paper advances the indeterministic quantum gravity theory by refining its equations and conceptual framework, aiming to unify general relativity and quantum mechanics through quantum jumps and a cosmic spacetime model.

Contribution

It introduces refinements to the indeterministic quantum gravity theory, including detailed equations and mechanisms for quantum jumps within a cosmological spacetime.

Findings

Unified description of universe with quantum jumps

Refined equations of motion for indeterministic quantum gravity

Cosmic spacetime as a product of time and space

Abstract

This paper is a continuation of the paper [V.S.Mashkevich, gr-qc/9409010]. Indeterministic quantum gravity is a theory that unifies general relativity and quantum theory involving indeterministic conception, i.e., quantum jumps. By the same token the theory claims to describe all the universe. Spacetime is the direct product of cosmic time and space. The state of the universe is given by metric, its derivative with respect to cosmic time, and the number of an energy level. A quantum jump occurs at the tangency of two levels. Equations of motion are the restricted Einstein equation (the cosmic space part thereof) and a probability rule for the quantum jump. Keywords: indeterminism, quantum jumps, state vector reduction, cosmology, cosmic spacetime