International Journal For Multidisciplinary Research

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Elementary Charge–Energy Quanta and the Evolution of Matter.

Author(s) Prof. Dr. Vijay T. Ingole, Dr. Anant S. Wadatkar
Country India
Abstract A classical, finite-state framework is presented in which matter is constructed from pressure-limited charge–energy quanta. By balancing Coulomb interaction against a maximum sustainable vacuum pressure, a minimum confinement length for electric charge emerges naturally. We define a confined charge-enegy pair, denoted Que, which for convenience is referred to as the Quetron. The associated interaction energy is obtained directly from classical work–energy considerations and evaluates to approximately 3.5 MeV, without adjustable parameters. This energy scale coincides with the combined magnitudes of neutron decay energy and nuclear binding energy, indicating a common underlying origin. Building on this result, the neutron is constructed as a stable fermionic assembly of an integer number of Que units, yielding the observed neutron confinement radius and an exact confinement force of order 10⁵ newton using classical principles alone. Within this framework, the neutron appears as the first stable manifestation of confined energy, from which nuclear structure, particle decay products, radiation, and large-scale cosmic matter naturally follow. The results suggest that elementary charge–energy confinement, constrained by physical pressure limits, provides a coherent classical basis for the emergence and evolution of matter.
Keywords Charge–energy confinement; Elementary charge cell Quetron; Neutron structure; Confinement force; Vacuum pressure limit; Classical electrodynamics; Finite-state matter: Nuclear energy scale.
Field Physics > Energy
Published In Volume 8, Issue 1, January-February 2026
Published On 2026-01-29
DOI https://doi.org/10.36948/ijfmr.2026.v08i01.67574
Short DOI https://doi.org/hbmv9q
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