It is well known that the concept of a point charge interacting with the electromagnetic (EM) field has a problem. To address that problem we introduce the concept of wave-corpuscle to describe spinless elementary charges interacting with the classical EM field. Every charge interacts only with the EM field and is described by a complex valued wave function over the 4-dimensional space time continuum. A system of many charges interacting with the EM field is defined by a local, gauge and Lorentz invariant Lagrangian with a key ingredient—a nonlinear self-interaction term providing for a cohesive force assigned to every charge. An ideal wave-corpuscle is an exact solution to the Euler-Lagrange equations describing both free and accelerated m...
We simplify the nonlinear equations of motion of charged particles in an external electromagnetic fi...
AbstractCareful calculations using classical field theory show that if a macroscopic ball with unifo...
[[abstract]]Recently, we have presented the local-ether model of propagation of electromagnetic wave...
This paper presents the first theoretical framework that defines the electric infinitesimal structur...
This article offers a new approach for analysing the dynamic behaviour of distributions of charged p...
Maxwell's equations from the 19th century and the almost equally old Lorentz force equation provide ...
The nonlinear interaction of electrons with a high intensity, spatially localized, Gaussian, electro...
The present work proposes a discussion on the self-energy of charged particles in the framework of n...
As the particles originating from point-like entities are associated with infinite self energies, a ...
A classical model of the electron based on Maxwell’s equations is presented in which the wave charac...
This article offers a new approach for analysing the dynamic behaviour of distributions of charged p...
This article offers a new approach for analysing the dynamic behaviour of distributions of charged p...
[[abstract]]The local-ether wave equation incorporating a nature frequency and the electric scalar p...
As the particles originating from point-like entities are associated with infinite self energies, a ...
Non-empty space reading of Maxwell equations as local energy identities explains why a Coulomb field...
We simplify the nonlinear equations of motion of charged particles in an external electromagnetic fi...
AbstractCareful calculations using classical field theory show that if a macroscopic ball with unifo...
[[abstract]]Recently, we have presented the local-ether model of propagation of electromagnetic wave...
This paper presents the first theoretical framework that defines the electric infinitesimal structur...
This article offers a new approach for analysing the dynamic behaviour of distributions of charged p...
Maxwell's equations from the 19th century and the almost equally old Lorentz force equation provide ...
The nonlinear interaction of electrons with a high intensity, spatially localized, Gaussian, electro...
The present work proposes a discussion on the self-energy of charged particles in the framework of n...
As the particles originating from point-like entities are associated with infinite self energies, a ...
A classical model of the electron based on Maxwell’s equations is presented in which the wave charac...
This article offers a new approach for analysing the dynamic behaviour of distributions of charged p...
This article offers a new approach for analysing the dynamic behaviour of distributions of charged p...
[[abstract]]The local-ether wave equation incorporating a nature frequency and the electric scalar p...
As the particles originating from point-like entities are associated with infinite self energies, a ...
Non-empty space reading of Maxwell equations as local energy identities explains why a Coulomb field...
We simplify the nonlinear equations of motion of charged particles in an external electromagnetic fi...
AbstractCareful calculations using classical field theory show that if a macroscopic ball with unifo...
[[abstract]]Recently, we have presented the local-ether model of propagation of electromagnetic wave...