Author(s)

Oleg Antonovich Zaimidoroga

Joint Institute for Nuclear Research, Dubna, Russian Federation.

This article is the continuation of article [1] where the experimental facts of observation of the electroscalar radiation in the spectrum of the Sun have been presented [2]. This radiation comes into the world having a long wavelength, being longitudinal and extraordinarily penetrating. In accordance with the principle of least action, the Lagrangian of the electroscalar field and the tensor of energy-moment are determined using the variation the potential and coordinates. The equation of motion the charged particle in electroscalar field is determined and the energy of particle has the negative sign with respect to the mechanical energy of particle and the energy of electromagnetic field. So, this is decreasing the electrical potential of particle during the propagation. The electroscalar energy of charged particle and field’s force acting on the particle during their motion change the particle’s electrical status which, in its turn, may trigger the transition of the particle into a compound state during interaction with any object. Due to the continuity this process can lead the particle to the state which enters into a compound state with a negative energy for a different particle’s velocity. This state is the physical vacuum’s state. Analysis of the solar spectrum demonstrates that scattering and absorption of electroscalar wave go on the cavities of solids. The spreading out of electroscalar field obeys to the law of plane wave and the transfer the energy and information can occur in vacuum and any medium.

Equation of Motion of Electroscalar Field, Tensor Energy-Moment of Electroscalar Field, Natural Law of Particle’s Transition into a Compound State, Physical Vacuum

Zaimidoroga, O. (2016) The Natural Law of Transition of a Charged Particle into a Compound State under the Action of an Electroscalar Field. Journal of Modern Physics, 7, 2188-2204. doi: 10.4236/jmp.2016.715190.