TL;DR
This paper develops a thermodynamic approach to quantum gravity based on a simplified 1D quantum field theory derived from canonical quantization of General Relativity, emphasizing space quanta and entropic formalism.
Contribution
It introduces a thermodynamic framework for quantum gravity using space quanta and entropic formalism, expanding on a simplified 1D quantum field theory model.
Findings
Quantum gravity phenomenology modeled via space quanta thermodynamics.
Entropic formalism applied to construct space quanta from first principles.
Model links quantum field correlations to gravitational effects.
Abstract
The canonically quantized 3+1 General Relativity with the global one dimensionality conjecture defines the model, which dimensionally reduced and secondary quantized yields the one-dimensional quantum field theory wherein the generic one-point correlations create a boson mass responsible for quantum gravity. In this paper, this simple model is developed in a wider sense. We propose to consider the thermodynamics of space quanta, constructed ab initio from the entropic formalism, as the quantum gravity phenomenology.
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