Phenomenon explained | Key concept | Reference |
Wave-particle duality in the double slit device | One reactive end passes through each slit. | [1] |
Derivation of optical laws from a particle perspective | Includes derivation of reflection and refraction laws, and Brewster’s Angle from particle basis. | [1] |
Prediction of particle structures | Electron, proton, neutron, neutrino species, photon. | [5] [8] [9] [10] [11] |
Explanation of the decay processes and prediction of a deeper decay model | Dependency identified on neutrino species loading. | [9] [10] |
Explanation for the selective spin characteristics of neutrinos whereby the direction of spin is correlated with the matter-antimatter species | Spin direction arises from reaction between incomplete discrete force emissions from the particle, and the background fabric. | [10] |
Explanation for particle spin and derivation of the electron g factor g = 2 | Cordus particle structure naturally causes g = 2. | [7] |
Explanation for the annihilation process | Description of the discrete force changes involved in remanufacture of these particle identities. Includes a conceptual explanation of the difference between otho- and para-positronium decay rates (ortho and para refer to spin combinations of the bound electron and anti-electron/positron). | [12] |
Provision of a mechanics for pair production | Rearrangement of discrete forces changes the particle identity. | [13] |
Explanation of process of photon emission | Excess energy in the electron changes it span, which is opposed by bonding constraints. | [3] [14] |
Synchronous interaction | Synchronous interaction between discrete forces of different matter particles causes the strong nuclear force. | [2] |
Predicted structure of atomic nuclei and explanation of stability for nuclides H to Ne | Protons and neutrons are arranged in a nuclear polymer. The rules for this arrangement, and for the bridge neutrons, are inferred and are qualitatively consistent with observed stability/instability/non-existence of all nuclides in this range. | [15] [16] |
Prediction of a mechanism for asymmetrical baryogenesis | Predicts a decay path for remanufacture of the antielectron to the proton. This also solves the asymmetrical leptogenesis problem. | [8] |
Origin of entropy | Fabric increases the Irreversibility of geometric position of particle. | [17] |
A theory for time as an emergent property of matter rather than a universal attribute | Time arises from the interaction between the frequency of a particle and the local density of the fabric. | [4] |
Nature of the vacuum and the cosmological horizon | Vacuum comprises fabric of discrete forces from massy particles. | [18] |
Origin of the finite speed of light | Determined by fabric density, hence variable with epoch of universe and local distribution of mass. | [19] |
Quantitative derivation of the relativistic Doppler and the Lorentz factor | Derivation accomplished from a particle perspective. Identifies fabric density as a covert variable. | [20] |