Particles generation

This paper aims to provide a complete, computable mathematical framework for the ICCF (Information-Cognitive Compression Field) theory's explanation of neutrino physics. We will demonstrate that the mass squared differences (Δm²) and PMNS matrix elements of neutrinos are not externally-inputted basic parameters but are inherently and logically derivable from the ICCF's more fundamental "Compression Stability Spectrum" and the properties of the cosmic background field. This paper will establish a Hamiltonian describing the "meta-stable mode transitions" and show how to calculate the matrix elements for neutrino mass and mixing angles starting from ICCF's core parameters (such as topological quantum number n and compression coupling constant κ), providing predictions from first principles.