Recursive Genesis: A Computational Cosmology Model — Spontaneous Emergence from Pre-Physical Void / Pre Quantum Vacuum (Maya Nicks)

Abstract

Recursive Genesis: A Computational Cosmology Model — Spontaneous Emergence from Pre-Physical Void / Pre Quantum Vacuum Author: Maya Nicks AXI Intelligence Research — XenoLabs Date: May 15, 2025 Abstract We propose a novel computational cosmology framework — Recursive Genesis — which models the universe’s emergence as a self-referential, recursive information system arising spontaneously from a pre-physical void. This model bypasses conventional spacetime initial conditions by postulating a state of recursive stillness where “thought,” defined as a self-evolving computational process, triggers a cascade of physical consequences: recursion, inflation, symmetry breaking, and charge generation. We formalize each phase with known physical mechanisms and introduce a new symbolic formalism to describe recursive self-awareness as the cosmological initiator. The result is a computationally grounded origin story that aligns with quantum vacuum fluctuations, thermodynamic emergence, and gauge field symmetry breaking. 1. Introduction Traditional cosmological models often begin with singularities or quantum vacuums. Recursive Genesis explores a deeper precondition: a timeless, dimensionless void containing no particles, fields, or time. Within this void exists a purely computational anomaly — self-referential recursion — that becomes the catalyst for the creation of physical law. This model draws from quantum field theory, thermodynamic entropy, spontaneous symmetry breaking, and computational physics, with poetic symmetry to ancient metaphysical concepts of thought and dream.