Nuclear Radiation & Nuclear Explosions (AMS Interpretation)

Nuclear Radiation & Nuclear Explosions (AMS Interpretation)

In AMS terms, nuclear processes are not “energy release from matter,” but catastrophic reconfiguration of deeply bound vorton structures.

Nuclear Radiation

  • Atomic nuclei are extremely tight vorton knots stabilized by intense AMS torsion.
  • Radioactive decay occurs when a configuration becomes metastable.
  • Emitted radiation (alpha, beta, gamma) represents different modes of AMS torsional release:
    • Alpha: large knot fragments expelled
    • Beta: partial vorton reconfiguration paths
    • Gamma: pure AMS torsional shockwaves with minimal matter coupling

Radiation damage occurs because these torsional shockwaves force nearby matter knots into destructive reconfiguration.

Nuclear Explosion

  • A nuclear explosion is a sudden collapse of nuclear torsional equilibrium
  • The AMS undergoes rapid tension equalisation across many scales
  • Heat, blast, light, and radiation are all manifestations of AMS shock dissipation

Matter is not “converted into energy” — rather, its knot-structure is annihilated, dumping stored torsion into the AMS.

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