Resonant Genesis and the Post-CDM Spacetime Geometry: Toward a Harmonic Framework of Cosmic Structure Formation
Abstract:
Recent observations from the James Webb Space Telescope (JWST) challenge the standard CDM cosmological model by revealing the presence of mature, massive galaxies at high redshifts (), inconsistent with the bottom-up hierarchical structure formation paradigm. In this paper, we propose a novel framework, Resonant Genesis Hypothesis, which reinterprets the early universe as a resonant medium, where large-scale structures arise from standing wave patterns in spacetime rather than gravitational coalescence. This approach is built upon the theoretical foundation of harmonic boundary conditions in curved spacetime, inspired by classical resonant systems and fractal geometries. We present a new formulation of spacetime geometry, explore its mathematical structure using Helmholtz-like eigenmode decomposition, derive the physical implications of resonant eigenfrequencies, and simulate structure formation patterns numerically. Empirical correlations with cosmic microwave background anisotropies and large-scale structure data support the plausibility of this model. Our findings suggest a paradigm shift in cosmology---from random inflationary fluctuations to structured, information-rich initial conditions governed by spacetime harmonics.
Outline:
1. Introduction
Motivation: Tensions in CDM and anomalies in JWST data.
Overview of the fine-tuning problem and the limits of inflation.
Statement of hypothesis: Resonant Genesis and printed spacetime.
2. Theoretical Background and Conceptual Framework
Review of CDM and cosmic inflation models.
Fine-tuning revisited: from constants to resonant conditions.
