This paper reports on the discovery of a non-classical thermal emission effect observed in nanostructured Carbon-60 (C60) substrates. The research demonstrates that when a C60 matrix is engineered with a specific vertical lattice pitch of 19.46 nm + 0.05 nm, it exhibits high-density kinetic-to-thermal energy conversion. This phenomenon is categorized under the framework of Push-theory, involving the resonant interaction between universal subatomic flux and precisely constrained molecular geometries. The primary objective of this publication is to establish intellectual priority for the 19.46 nm geometric constant and its application in C60-based resonance systems. The documented nominal thermal output is 2 kW per 100mm unit. Specific activation protocols, the subatomic loop-hierarchy, and the exact harmonic frequency ranges required to initiate the reaction are withheld in the restricted technical annex to prevent unauthorized commercial exploitation and ensure safe developmental oversight.
Dirk Goussey (Mon,) studied this question.