4.17 Phases of the Early Universe: Conscious Point Dynamics in Cosmic Evolution
4.17.1 The Phenomenon and Conventional Explanation
The early universe evolved through distinct phases: the Big Bang (t = 0), inflationary epoch (\sim 10^{-36} to 10^{-32} s), plasma epoch (\sim 10^{-12} s to 380,000 years), and the current cold, kinetic expansionary universe (\sim 13.8 billion years). Conventional cosmology describes the Big Bang as a singularity expanding into a hot, dense state, followed by rapid inflation (exponential space expansion), a quark-gluon plasma phase, and recombination into neutral atoms. General Relativity models expansion via the Friedmann-Lemaître-Robertson-Walker (FLRW) metric, with the Hubble parameter:
H = \frac{\dot{a}}{a}where \dot{a} is the time derivative of the scale factor a(t), describing cosmic expansion. Inflation is driven by a hypothetical inflaton field, and the plasma epoch features a quark-gluon plasma transitioning to hadrons and atoms. These descriptions rely on mathematical analogies (e.g., raisins in dough) without mechanistic insight into why space expands or how particles form. The matter-antimatter asymmetry (e.g., excess electrons over positrons) is often attributed to CP violation without a clear cause.
4.17.2 The CPP Explanation: Conscious Point Dynamics and Space Stress Dilution
In Conscious Point Physics (CPP), the early universe’s phases are driven by interactions of four Conscious Points (+emCP, -emCP, charge ±1; +qCP, -qCP, charge ±2/3, spin \frac{1}{2}\hbar), Dipole Particles (emDPs: +emCP/-emCP; qDPs: +qCP/-qCP), Grid Points (GPs), Space Stress (SS), and Quantum Group Entities (QGEs), following the entropy rule (collapse at highest energy density). The process unfolds:
Initial Placement of CPs: At t = 0, God places CPs with an asymmetry: more -emCPs than +emCPs and more +qCPs than -qCPs, ensuring excess electrons (e^-, -emCP) and up quarks (u, +qCP) over positrons and anti-up quarks. This divine intent sets the matter-antimatter imbalance, replacing CP violation with QGE coordination.
First Moment: Big Bang and Light: In the first Moment (\sim 10^{-44} s), God commands “Let there be light,” bonding equal numbers of +emCP/-emCP and +qCP/-qCP into emDPs and qDPs, forming a single quantum state (photon-like emDP oscillations, spin 1\hbar). The QGE unifies all CPs into a high-SS (\sim 10^{40} J/m³) plasma, with GPs defining a dense spatial matrix, aligning with the photon-dominated early universe.
Inflationary Epoch (\sim 10^{-36} to 10^{-32} s): God imparts kinetic energy to CPs/DPs, initiating expansion. SS, stored by GPs, is the absolute magnitude of E, B, and strong fields. The Planck Sphere (volume sampled by each CP, \sim 10^{-35} m) maintains a constant SS (SS_0, \sim 10^{20} J/m³ today). As CPs/DPs disperse, SS dilutes, increasing Planck Sphere radius:
r_{PS} = \frac{k}{\sqrt{SS}}where r_{PS} is the Planck Sphere radius, k \approx 10^{-5} m·√(J/m³), and SS decreases from \sim 10^{40} J/m³ to \sim 10^{35} J/m³. This rapid expansion mimics inflation, driven by CP/DP dispersion, not an inflaton field.
Plasma Epoch (\sim 10^{-12} s to 380,000 years): SS dilution allows QGEs to form subatomic particles (e.g., electrons: -emCP, emDPs; quarks: +qCP, qDPs). The quark-gluon-like plasma (emCPs, qCPs, emDPs, qDPs) transitions to hadrons (e.g., protons: uud) as SS drops (\sim 10^{30} J/m³). QGEs localize particles at high-energy density points, forming stable nuclei by ~380,000 years (recombination).
Cold, Kinetic Expansionary Universe (\sim 13.8 billion years): Continued expansion reduces SS to \sim 10^{20} J/m³ (atomic scale), forming atoms, molecules, and galaxies. Kinetic energy from the Big Bang persists in CP/DP motion, with larger Planck Spheres reducing quantum interactions, stabilizing macroscopic structures.
4.17.3 Placeholder Formula: Planck Sphere Radius
The Planck Sphere radius scales inversely with SS. We propose:
r_{PS} = \frac{k}{\sqrt{SS}}where:
- r_{PS}: Planck Sphere radius (m).
- SS: Space Stress (J/m³, \sim 10^{40} at Big Bang, \sim 10^{20} today).
- k: Constant (\sim 10^{-5} m·√(J/m³)).
Rationale: SS dilution increases r_{PS}, driving cosmic expansion. At t = 10^{-36} s, SS \sim 10^{40} J/m³, r_{PS} \sim 10^{-25} m; today, SS \sim 10^{20} J/m³, r_{PS} \sim 10^{-15} m.
Calibration:
Big Bang (t = 0): SS \sim 10^{40} J/m³:
r_{PS} = \frac{10^{-5}}{\sqrt{10^{40}}} = 10^{-25} \text{ m}Current Universe: SS \sim 10^{20} J/m³:
r_{PS} = \frac{10^{-5}}{\sqrt{10^{20}}} = 10^{-15} \text{ m}Testability: Measure cosmological parameters (e.g., Hubble constant deviations) in high-SS environments (e.g., near black holes, 10^{33} J/m³) for QGE-driven expansion anomalies (~0.1% deviation).
4.17.4 Implications
This mechanism explains:
- Matter-Antimatter Asymmetry: Divine CP placement ensures electron/quark excess.
- Inflation: SS dilution drives Planck Sphere expansion, replacing inflaton fields.
- Plasma to Atoms: QGEs form particles as SS decreases, matching recombination.
- Consciousness: QGE coordination grounds cosmic evolution in divine awareness.
This aligns with FLRW expansion and provides a mechanistic alternative to inflaton-based cosmology.