Energy Conversion Mechanics for Photon Emission per Non-Local Hidden-Variable Theory

@article{Pons2016EnergyCM,
  title={Energy Conversion Mechanics for Photon Emission per Non-Local Hidden-Variable Theory},
  author={Dirk J Pons and Arion Pons and Aiden J. Pons},
  journal={Journal of Modern Physics},
  year={2016},
  volume={7},
  pages={1049-1067}
}
Problem-Energy conversion processes in optical phenomena are incompletely explained by wave theory or quantum mechanics. There is a need for ontologically rich explanations at the level of individual particles. Purpose: This paper reports on the application of a non-local hidden-variable solution called the Cordus theory to this problem. The method is directed to the systematic development of a conceptual framework of proposed causal mechanisms. Findings: It has long been known that the bonding… 

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References

SHOWING 1-10 OF 37 REFERENCES
Inner Processes of Photon Emission and Absorption
Problem- There are deep unanswered questions about photon emission, specifically how the field structures of the photon emerge from the electron. While this problem cannot be answered from within
Pair Production Explained in a Hidden Variable Theory
Pair production is a key component of mass-energy equivalence yet the deeper processes whereby photons transform into matter-antimatter pairs are unknown. A theory is presented for the mechanics of
Differentiation of Matter and Antimatter by Hand: Internal and External Structures of the Electron and Antielectron
A previous conceptual work, called the Cordus conjecture, has proposed a non-local hidden-variable (NLHV) design for the photon, and thereby proposed a solution to photon entanglement and
A Proposed Solution of the Measurement Problem in Quantum Mechanics by a Hidden Variable Theory
The measurement problem in quantum mechanics is re-examined and it is shown that it cannot really be solved in a satisfactory way, within the framework of the usual interpretation of the theory. We
Nonlocal Hidden-Variable Theories and Quantum Mechanics: An Incompatibility Theorem
It is argued that among possible nonlocal hidden-variable theories a particular class (called here “crypto-nonlocal” or CN) is relatively plausible on physical grounds. CN theories have the property
Annihilation mechanisms
This paper develops an ontologically rich explanation of the inner mechanics of the annihilation process, starting from a non-local hidden-variable (NLHV) design. This explains the process in terms
Wave-particle duality: A proposed resolution
There are several integration problems of fundamental physics that still lack coherent solutions, the case in point being wave-particle duality. While empiricism and mathematical modelling have
Wave-Particle Duality: a Conceptual Solution from the Cordus Conjecture
There are several integration problems of fundamental physics that still lack coherent solutions, the case in point being wave-particle duality. While empiricism and mathematical modelling have
Cordus Matter: Part 3.3 Energy Cycles Within Matter
The interaction of light with electrons is one of the fundamental perceptual realities of what we see. Yet that interaction is only partly understood. Cordus concepts are applied to develop a
Hidden Variable Theory Supports Variability in Decay Rates of Nuclides
PROBLEM- The orthodox expectation is for decay rates to be strictly constant for all types of decay (β+, β-, EC, α). However empirical results show strong evidence for nuclides having variable decay
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