Reactive Substrate Theory (RST) Teleportation: Step-by-Step Storyboard

This explainer outlines how teleportation could unfold in RST, where matter is a soliton configuration of the Substrate Field (S). Each stage shows what happens to the substrate, the soliton, and the observer’s frame.

Stage 1: Preparation

  • Substrate: Quiet background noise, stabilize local tension.
  • Soliton: Phase map and tension profile measured (no disassembly).
  • Observer: Detects setup signals but object remains intact.

Stage 2: Corridor Creation

  • Substrate: Low-strain path formed between origin and destination.
  • Soliton: Protected from drift by counter-phase fringes.
  • Observer: Sees subtle tension gradients forming.

Stage 3: Phase Shift

  • Substrate: Corridor carries coherent phase re-mapping.
  • Soliton: Slides intact along substrate corridor (identity preserved).
  • Observer: Registers coherent wavefront movement.

Stage 4: Capture

  • Substrate: Destination template strengthens, corridor fades.
  • Soliton: Locks into new location, releasing residual strain.
  • Observer: Detects ring-down waves and stabilization.

Stage 5: Reintegration

  • Substrate: Local couplings equilibrate with environment.
  • Soliton: Fully coherent, no duplication or destruction.
  • Observer: Sees intact arrival, not a copy.

Bottom line: In RST, teleportation is achieved by re-phasing soliton states through substrate corridors. It requires finite energy, no exotic matter, and preserves the object’s identity without duplication.

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