REL-10: 3D Isotropy — Spherical Symmetry

3D Isotropy — Spherical Symmetry

productionTier 1: Relativisticwave-packet

Research validation test for relativistic tier. 3D Isotropy — Spherical Symmetry

Canonical Validation Status: All physics validation tests passing (105/105 executed; 100.0%). Skip-designated tests excluded by executed-only policy.

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REL-10: 3D Isotropy — Spherical Symmetry

Visualization: E(x,t) field amplitude along 1D spatial lattice

■ E > 0

■ E < 0

Physics Test:

Research validation test for relativistic tier. 3D Isotropy — Spherical Symmetry

Pass criteria: Energy drift < 0.000001

Discretized Klein-Gordon

∂²E/∂t² = c²∇²E − χ²E

Numerical params:

N = 256 (lattice points)

Δt = 2.50e-3 (time step)

Δx = 8.00e-3 (spatial step)

χ = 0 (mass term, units c=1)

k/k_Nyquist = 0.05 (5% of max frequency)
Boundary: Periodic (wraps at edges)
Integrator: Verlet (2nd-order symplectic)

Expected: Energy conservation < 10⁻⁶, symmetric ω(±k)

Key Observables

Energy conservation:
ΔE/E₀ should remain < 0.000001 (numerical stability check)

Interactive: Drag to rotate, scroll to zoom
Watch field oscillations (bars height = E(x,t))

Step: 0 / 800

Visualization Options

Chi Field (Heatmap)Lattice GridForce VectorsStars & Background

Test Configuration (Read-Only)

🔒 Parameters locked to validated test harness configuration

latticeSize5.12e+2

dt2.50e-3

dx8.00e-3

steps8.00e+2

chi0.00e+0

Configuration

Grid: 512³

dt: 2.50e-3

dx: 8.00e-3

Steps: 800

Metrics

No metrics available. Start simulation to see live data.

Validation Criteria

energyDrift< 0.000001

🔬

Validation Coming Soon

Cryptographic validation with exact Python code reproduction will be available in the next update.

Validation

Run validation to compare web simulation against test harness results.

Validation runs the test harness simulation and writes diagnostic results toworkspace/results/website_validation/REL-10/

Documentation

→ Test Config JSON → Test Results → Discovery Entry