{ "module": "Vibrational_Stone_Cutting", "version": "2026.1", "category": "Material Resonance", "summary": "A research‑sandbox module exploring resonance‑based material softening and precision cutting using triadic field geometry.", "files": [ { "path": "Vibrational_Stone_Cutting.md", "role": "profile", "purpose": "Primary research document describing operators, procedures, measurements, and RTT framing." }, { "path": "material_profile_stone.json", "role": "reference", "purpose": "Optional material profile describing density, grain structure, resonance windows, and fracture behavior." }, { "path": "experiment_log_template.md", "role": "template", "purpose": "Student‑ready template for recording experimental runs, measurements, and RTT synthesis." } ], "operators": [ { "name": "L2", "type": "line", "purpose": "Establishes a standing‑wave corridor across the material to define the intended cut line." }, { "name": "F3", "type": "field", "purpose": "Creates a triadic resonance bubble that shifts the material into a soft‑regime window." }, { "name": "R", "type": "regime", "purpose": "Controls timing and duration of the RTT/1 → RTT/2 soft‑regime transition." }, { "name": "P1", "type": "pulse", "purpose": "Synchronized mechanical strike that collapses the field along the L2 corridor." } ], "analyzer_layers": [ "operator", "dimensional", "regime", "coherence", "cross-cutting" ], "invariants": [ "Triadic field geometry must be preserved.", "Operators must be applied in the sequence L2 → F3 → R → P1.", "Measurements must be recorded before and after regime shift.", "Student experiments must remain within safe force and resonance limits." ], "audience": [ "Students", "Researchers", "AI collaborators" ], "status": "research", "cross_module_links": [ "RTT", "Substrate_Flow", "Material_Profiles", "Resonance_Operators", "Experimental_Methods" ] }