Asymmetrical Neutrino Induced Decay of Nucleons

@article{Pons2014AsymmetricalNI,
  title={Asymmetrical Neutrino Induced Decay of Nucleons},
  author={Dirk J Pons and Arion Pons and Aiden J. Pons},
  journal={Applied Physics research},
  year={2014},
  volume={7},
  pages={1}
}
Problem- The operation of neutrino detectors shows that nuclide decay rates can be affected by loading of neutrino species. However the underlying principles of this are poorly understood. Purpose- This paper develops a conceptual solution for the neutrino-species interactions with single nucleon decay processes. Approach- The starting point was the non-local hidden-variable (NLHV) solution provided by the Cordus theory, specifically its mechanics for the manipulation of discrete forces and the… 

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References

SHOWING 1-10 OF 26 REFERENCES

Double beta decay: A problem of particle, nuclear and atomic physics

Colloquium : The neutron lifetime

The decay of the free neutron into a proton, electron, and antineutrino is the prototype semileptonic weak decay and is the simplest example of nuclear beta decay. It played a key role in the early

Beta Decays and the Inner Structures of the Neutrino in a NLHV Design

A novel conceptual theory is developed for the beta decay and electron capture processes, based on the specific non-local hidden-variable (NLHV) design provided by the Cordus theory. A new mechanics

Weak interaction and the mechanisms for neutron stability and decay

Purpose – The decay of the neutron is well known from the perspective of empirical quantification, but the ontological explanations are lacking for why the neutron should be stable within the nucleus

The preponderance of matter: Asymmetrical genesis via the antineutrino route

The existence of the universe is an enigma because the energy at genesis should have created equal amounts of matter and antimatter, which should have subsequently annihilated. What happened in the

BETA DECAYS AND DELAYED GAMMAS FROM FISSION FRAGMENTS

A theoretical study is made of the gross behavior of beta decays following nuclear fission in times from 10/sup -2/ to 10 sec. First a simple model is formulated to describe the situation in terms of

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