Add to ORKGAbstract: Dirac-Maxwell’s equations, retained for magnetic monopoles, are generalized by introducing magnetic scale field. It allows the magnetic monopoles to be time-dependent and the potentials to be Lorentz gauge free. The non-conserved part or the time-dependent part of the magnetic charge density is responsible to produce the magnetic scalar field which further contributes to the magnetic and electric vector fields. This contribution makes possible to create an ideal square wave magnetic field from an exponentially rising and decaying magnetic charge
As the first step of establishing a canonical theory of the electrodynamics with electric and magnet...
A resolution over the existence of magnetic charges has eluded the high energy physics community for...
A schematic representation of Dirac’s magnetic monopole. The monopole is imagined to be the end poin...
Magnetic Monopole is a consequence of the existence of the duality symmetry in electrodynamics. Alth...
The symmetry between electric and magnetic fields in the sourcefree Maxwell’s equations naturally su...
This paper shows that based upon the Helmholtz decomposition theorem the field of a stationary magne...
Dirac's quantization of magnetic monopole strength is derived without reference to a (singular, patc...
In further discussion on the Maxwell-Lorentz equations in Dirac’s symmetrisation, I introduce the co...
We study the full Maxwell-Dirac equations: Dirac field with minimally coupled electromagnetic field ...
The derivation of the Maxwell equations is reproduced whereby magnetic charges are included. This an...
We give a Lagrangian description of an electric charge in a field sourced by a continuous magnetic m...
We consider the demonstration of Dirac charge quantization and interpret the main equation as the si...
Magnetic monopoles have rivaled black holes as the most beautiful and elusive entities in the world ...
This monograph addresses the field theoretical aspects of magnetic monopoles. Written for graduate s...
Maxwell’s equations of classical electromagnetism are presented, in Gaussian units, without (1, 2, 3...
As the first step of establishing a canonical theory of the electrodynamics with electric and magnet...
A resolution over the existence of magnetic charges has eluded the high energy physics community for...
A schematic representation of Dirac’s magnetic monopole. The monopole is imagined to be the end poin...
Magnetic Monopole is a consequence of the existence of the duality symmetry in electrodynamics. Alth...
The symmetry between electric and magnetic fields in the sourcefree Maxwell’s equations naturally su...
This paper shows that based upon the Helmholtz decomposition theorem the field of a stationary magne...
Dirac's quantization of magnetic monopole strength is derived without reference to a (singular, patc...
In further discussion on the Maxwell-Lorentz equations in Dirac’s symmetrisation, I introduce the co...
We study the full Maxwell-Dirac equations: Dirac field with minimally coupled electromagnetic field ...
The derivation of the Maxwell equations is reproduced whereby magnetic charges are included. This an...
We give a Lagrangian description of an electric charge in a field sourced by a continuous magnetic m...
We consider the demonstration of Dirac charge quantization and interpret the main equation as the si...
Magnetic monopoles have rivaled black holes as the most beautiful and elusive entities in the world ...
This monograph addresses the field theoretical aspects of magnetic monopoles. Written for graduate s...
Maxwell’s equations of classical electromagnetism are presented, in Gaussian units, without (1, 2, 3...
As the first step of establishing a canonical theory of the electrodynamics with electric and magnet...
A resolution over the existence of magnetic charges has eluded the high energy physics community for...
A schematic representation of Dirac’s magnetic monopole. The monopole is imagined to be the end poin...