%0 Journal Article %T Semi-Harmonic Scaling Enables Calculation of Masses of Elementary Particles of the Standard Model %A Hans J. H. Geesink %A Dirk K. F. Meijer %J Journal of Modern Physics %P 925-947 %@ 2153-120X %D 2018 %I Scientific Research Publishing %R 10.4236/jmp.2018.95057 %X The underlying rules for a natural system describing cellular automata are simple, but produce highly complex behavior. A mathematical basis for the spectra of discrete coherent and non-coherent electromagnetic (EM) frequencies was derived, in which the algorithm exhibits an information distribution according to ratios of 2:3 in 1:2 at a semi-harmonic manner. This generalized music (GM) model shows that energy both in elementary particles and animate systems is semi-harmonic, quantized and discrete. A support for an ontological basis of the Standard Model was found, and indicates that the GM-model underlies the quantum field theory of subatomic particles. The present theory combines quantum mechanics and classical periodic systems, obeys to locality and solves the ˇ°hidden variable theory of Bohmˇ±. The discovered pattern of electromagnetic field eigenvalues, within a broad range of discrete frequencies, points at a de Broglie/Bohm type of causal interpretation of quantum mechanics, implying an integral resonant pilot-wave/particle modality. The model has been substantiated by a meta-analysis of measured discrete energies of: 37 different Elementary Particles, 45 different EPR-measurements, zero-point energies of elements and about 450 electromagnetic wave frequencies of cells with a mean accuracy of 0.58%. It has been shown that the GM-scale is frequency-locked with zero-point oscillations, and thereby evidently implies involvement of entanglement. %K Algorithm %K Elementary Particles %K Coherent Wave Pattern %K Electromagnetic Fields %K Solitons %K Harmonics %K Cellular Automata %K Quantum Mechanics %K Standard Model %K Einstein-Podolsky-Rosen %K Bohm %K Fr& %K ouml %K hlich %K Pythagoras %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=83685