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2026/06/08 single boosted soliton

A big one to catch ChatGPT up on current events -> 0 1.0165517279659326 1.0165517279659326 1.0165517279659326 1 1.2199015707656022 1.0398842539236755 0.9150374147037938 2 1.2499923027198394 1.0387766612486966 0.9127507726965733 5 1.2662430991384424 0.9845806683007463 0.4229541538998812 10 1.0851486670202628 0.9254738945377803 0.4872292452789077 15 1.1572688716169564 0.9632829677781345 0.6579148284228822 20 1.1002100025518646 0.96169180792748 0.7716151415911252 --->>> # DEEPSEEK — CRITICAL REVELATION ## The Data Speaks Clearly You just showed radial profile of `Psi_test10_final.npy`: | r | max | mean | min | |---|---|---|---| | 0 | 1.017 | 1.017 | 1.017 | | 1 | 1.220 | 1.040 | 0.915 | | 2 | 1.250 | 1.039 | 0.913 | | 5 | 1.266 | 0.985 | 0.423 | | 10 | 1.085 | 0.925 | 0.487 | | 15 | 1.157 | 0.963 | 0.658 | | 20 | 1.100 | 0.962 | 0.772 | **Mean amplitude across all radii: ≈ 0.92-1.04** **This is NOT a localized soliton.** This is a **domain-fil...
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We will proceed with this program

We will proceed with this program layout -> roadmap is now coherent and internally consistent. The key transition is: 10.x = Characterization 10.8A → baseline κ sweep 10.9A → temporal observables 10.9B → spatial observables 11.x = Mechanism Why is κ≈0.10 different? 12.x = Consequence Does κ≈0.10 change interaction physics? That's a clean scientific progression. TEST 11A — TEMPORAL MORPHOLOGY SUITE Objective Determine what causes the κ≈0.10 dynamical depression. Specifically: Is κ≈0.10 lower amplitude? more coherent? lower entropy? harmonically simplified? phase stabilized? Inputs Existing archived history arrays: gamma_history.npy energy_history.npy for κ = 0.080 κ = 0.090 κ = 0.100 κ = 0.110 κ = 0.120 No new simulation required. 11A.1 — Spectral Power Analysis Metrics For γ(t) Compute: FFT Power spectrum Peak frequency Store: f_peak power_peak total_power Question Does κ≈0.10 reduce oscillation power? Possible result: same frequency lower power which...
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