Cosmology

Coherence Geometry approaches cosmology through structural models in which large-scale organization emerges from coherence-governed field dynamics. Research in this area examines expansion behavior, matter distribution, gravitational signatures, and cosmic structure as consequences of underlying coherence and constraint rather than imposed background geometry.

Some topics are collected into focused sub-research areas, while other papers appear as standalone studies within the broader cosmology collection.

Sub-Research Areas

Dark Matter

Research exploring the connections between structure formation, conserved flux, inverse-square density scaling, galactic rotation curves, and gravitational lensing.

  • Constraint-Driven Formation of Coherence Structures and Their Inverse-Square Exterior Flux

    CGI-RSR-000031 | We establish a dynamical mechanism by which coherence-driven structure formation produces the inverse-square scaling behavior associated with galactic rotation curves and gravitational lensing.


  • Inverse-Square Density Profiles and Gravitational Lensing from Conserved Flux

    CGI-RSR-000030 | The paper establishes the following chain: conserved outward flux -> rho(r) ~ r^-2 -> gravitational potential -> approximately constant lensing deflection. The resulting lensing behavior is consistent with the leading-order predictions of standard halo models used to interpret gravitational lensing observations.


  • Conserved Flux and Inverse-Square Density Profiles in Galactic Rotation Curves

    CGI-RSR-000029 | The paper establishes the following chain: conserved outward flux -> rho(r) ~ r^-2 -> M(r) ~ r -> v(r) approximately constant. Under general conditions, inverse-square density profiles and flat galactic rotation curves arise as direct consequences of flux conservation in three-dimensional space.


  • Horizon-Like Emission from Curvature-Bound Coherence Fields

    CGI-RSR-000023 | We investigate horizon-like emission from curvature-regulated coherence fields within the Coherence Geometry (CG) framework. Using a multi-phase Lagrangian that incorporates curvature stiffness and phase-locking interactions, we numerically simulate the relaxation of a confined coherence region bounded by a curvature rim.


  • Coherence Geometry Foundations, Part II: Physical Projections

    CGI-BKS-0002 | Part II of the Coherence Geometry Foundations working reference text. It examines how quantum-like linear dynamics, causal and relativistic structure, residual coherence strain and cosmological background terms, electromagnetic field structure, thermodynamic behavior, and macroscopic transport can be represented as domain-level projections of the shared-amplitude, multi-phase coherence framework.


  • A Constrained Dynamical Dark Energy Parameterization with Linked w₀ and wₐ

    CGI-RSR-000001: We present a constrained dynamical dark-energy parameterization that provides a fit-ready alternative to standard phenomenological models used in late-time cosmology.


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