Add to ORKGFrom the physical three-vector Maxwell equations for an electromagnetic (E.M.) field in static gravitation, we examine the artifice of replacing the gravitation by an equivalent medium and we find modified Debye potentials for an E.M. wave in a simple, angularly homogeneous, material medium in a Schwarzs-child gravitational field. The fact that these potentials do not obey the generalized scalar wave equation implies that gravitation scatters the vector E.M. wave and a scalar wave differently. Also, we obtain and solve by perturbation the amplitude and eikonal equations for a high-frequency wave in a weak spherical gravitational field. To the order M/r, the state of transverse polarization does not change along a ray path whereas the transv...
International audienceMaxwell equations are known to be fully compatible with the special theory of ...
We present the exact solution to the linearized Maxwell equations in space-time slightly curved by a...
International audienceMaxwell equations are known to be fully compatible with the special theory of ...
From the physical three-vector Maxwell equations for an electromagnetic (E.M.) field in static gravi...
We use Feynman perturbation techniques to analyze some aspects of electromagnetic wave generation a...
The propagation of free electromagnetic radiation in the field of a plane gravitational wave is inve...
The behaviour of a "test" electromagnetic field in the background of an exact gravitational plane wa...
Modified scalar Debye potentials for electromagnetic (EM) waves in spherical gravity and spherical m...
We present the exact solution to the linearized Maxwell equations in space-time slightly curved by a...
The propagation of high-frequency gravitational waves can be analyzed using the geometrical optics a...
© 2018 American Physical Society. The propagation of gravitational waves is explored in the cosmolog...
The geometrical-optics expansion reduces the problem of solving wave equations to one of the solving...
From a previous paper where we proposed a description of general relativity within the gravito-elect...
In classical electrodynamics, boundary conditions of the E and B fields are derived from Maxwell\u27...
In this thesis gravitomagnetic effects are analysed in some detail. Einstein’s equations for weak gr...
International audienceMaxwell equations are known to be fully compatible with the special theory of ...
We present the exact solution to the linearized Maxwell equations in space-time slightly curved by a...
International audienceMaxwell equations are known to be fully compatible with the special theory of ...
From the physical three-vector Maxwell equations for an electromagnetic (E.M.) field in static gravi...
We use Feynman perturbation techniques to analyze some aspects of electromagnetic wave generation a...
The propagation of free electromagnetic radiation in the field of a plane gravitational wave is inve...
The behaviour of a "test" electromagnetic field in the background of an exact gravitational plane wa...
Modified scalar Debye potentials for electromagnetic (EM) waves in spherical gravity and spherical m...
We present the exact solution to the linearized Maxwell equations in space-time slightly curved by a...
The propagation of high-frequency gravitational waves can be analyzed using the geometrical optics a...
© 2018 American Physical Society. The propagation of gravitational waves is explored in the cosmolog...
The geometrical-optics expansion reduces the problem of solving wave equations to one of the solving...
From a previous paper where we proposed a description of general relativity within the gravito-elect...
In classical electrodynamics, boundary conditions of the E and B fields are derived from Maxwell\u27...
In this thesis gravitomagnetic effects are analysed in some detail. Einstein’s equations for weak gr...
International audienceMaxwell equations are known to be fully compatible with the special theory of ...
We present the exact solution to the linearized Maxwell equations in space-time slightly curved by a...
International audienceMaxwell equations are known to be fully compatible with the special theory of ...