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GPU Accelerated (WebGL 2.0)

Using 128² complex field grid — PHASE dynamics enabled

View: χ Curvature

🌀 Complex Ψ Field

Initializing GPU simulation...

Wells (χ < 10)

Transition

Voids (χ = 19)

Cosmic Timeline0.00 Gyr

Big BangFirst StarsGalaxiesSun FormsPresent

Big Bang— Initial singularity

Simulation Controls

Speed: 10× per frame

Grid Size: 128² (16,384 cells)

View: χ Curvature

Initial Conditions

Random phase blobs — instant structure

Field Statistics

Step0

χ Range—

Max |Ψ|²—

Complex Field Dynamics

Ψ = A·e^(iθ) — Complex wave with amplitude and phase

Phase θ — Encodes charge; gradient creates current

|Ψ|² — Energy density; creates χ depression (gravity)

How It Works

Complex Wave Field Ψ

Unlike a real scalar field, the complex field Ψ = A·e^(iθ) carries both amplitude (matter density) and phase (charge/spin).

Phase differences between regions create currents: j = Im(Ψ*∇Ψ). This enables angular momentum, charge flows, and swirling patterns that break the symmetry seen in real-field simulations.

Gravity from χ Depression

The χ field responds to matter via GOV-02: regions with high |Ψ|² cause χ to decrease. Lower χ means slower wave propagation — this IS gravity in LFM.

Matter accumulates in wells (low χ), repels from voids (high χ). The floor term λ(5-χ)³ prevents singularities — even black holes have finite χ.

GOV-01 (Complex Matter Wave):

∂²Ψ/∂t² = c²∇²Ψ − χ²Ψ

GOV-02 (Gravity):

∂²χ/∂t² = c²∇²χ − κ|Ψ|² + floor

Emergent Physics Lab