@article{bulathsinghala2013,
author = {Bulathsinghala, D.L. and Wijewardena Gamalath, K A I L},
title = {Planck Scale Potential Associated with Particles},
year = {2013},
month = {8},
volume = {16},
pages = {54--64},
journal = {International Letters of Chemistry, Physics and Astronomy},
doi = {10.18052/www.scipress.com/ILCPA.16.54},
keywords = {Planck Scale Potential, Mass-Energy Equivalence, Charge-Energy Equivalence, Energy-Momentum Relation, Electromagnetic Momentum, De-Broglie’s Wave Length},
abstract = {As the particles originating from point-like entities are associated with infinite self energies, a postulate, that the scalar-potential associated with particles are bounded by a Planck scale potential is introduced. By defining the self energy of a particle, equivalences between charge-energy and mass-energy are obtained. The electromagnetic energy-momentum equation, de-Broglie’s electromagnetic wave-length and frequency for a charge particle in motion are presented resolving the “4/3” discrepancy. The non-covariance nature of the present classical electrodynamics is discussed and how the proposed postulate makes it a fully covariant theorem with the rest of the classical electrodynamics is presented. A way electromagnetic energy-momentum equation could potentially resolve the stability-problem of a charge particle is discussed and thereby a theoretical explanation to electron’s spin is presented.}
}