The notion of a 2-point susceptibility kernel used to describe linear electromagnetic responses of dispersive continuous media in nonrelativistic phenomena is generalized to accommodate the constraints required of a causal formulation in spacetimes with background gravitational fields. In particular the concepts of spatial material inhomogeneity and temporal nonstationarity are formulated within a fully covariant spacetime framework. This framework is illustrated by recasting the Maxwell–Vlasov equations for a collisionless plasma in a form that exposes a 2-point electromagnetic susceptibility kernel in spacetime. This permits the establishment of a perturbative scheme for nonstationary inhomogeneous plasma configurations. Explicit formulae...
We use covariant techniques to study the non-linear evolution of self-gravitating, non-relativistic ...
A three-parameter toy model which describes a nonminimal coupling of gravity with the electromagneti...
In this thesis, we investigate the interaction between electromagnetic, gravitational, and plasma re...
The notion of a two-point susceptibility kernel used to describe linear electromagnetic responses of...
Models of covariant linear electromagnetic constitutive relations are formulated that have wide appl...
By recognizing that stress–energy–momentum tensors are fundamentally related to gravitation in space...
The form of the phenomenological stress–energy-momentum tensor for the electromagnetic field in a cl...
Recently a covariant approach to cold matter universes in the zero-shear hypersurfaces (or longitudi...
The general relativistic kinetic theory is applied to calculate corrections to the distribution aris...
Two general evolution equations are derived for the space-time autocorrelation function of the elect...
The exact 1+3 covariant dynamical fluid equations for a multi-component plasma, together with Maxwel...
A rigorous and most general covariant kinetic formalism is developed to study the nonlinear waves in...
We consider cosmological applications of a new self-consistent system of equations, accounting for a...
International audienceStarting from kinetic models of cold magnetized collisionless plasmas, we prov...
In this thesis I discuss the importance of general relativity on plasma physics in several astrophys...
We use covariant techniques to study the non-linear evolution of self-gravitating, non-relativistic ...
A three-parameter toy model which describes a nonminimal coupling of gravity with the electromagneti...
In this thesis, we investigate the interaction between electromagnetic, gravitational, and plasma re...
The notion of a two-point susceptibility kernel used to describe linear electromagnetic responses of...
Models of covariant linear electromagnetic constitutive relations are formulated that have wide appl...
By recognizing that stress–energy–momentum tensors are fundamentally related to gravitation in space...
The form of the phenomenological stress–energy-momentum tensor for the electromagnetic field in a cl...
Recently a covariant approach to cold matter universes in the zero-shear hypersurfaces (or longitudi...
The general relativistic kinetic theory is applied to calculate corrections to the distribution aris...
Two general evolution equations are derived for the space-time autocorrelation function of the elect...
The exact 1+3 covariant dynamical fluid equations for a multi-component plasma, together with Maxwel...
A rigorous and most general covariant kinetic formalism is developed to study the nonlinear waves in...
We consider cosmological applications of a new self-consistent system of equations, accounting for a...
International audienceStarting from kinetic models of cold magnetized collisionless plasmas, we prov...
In this thesis I discuss the importance of general relativity on plasma physics in several astrophys...
We use covariant techniques to study the non-linear evolution of self-gravitating, non-relativistic ...
A three-parameter toy model which describes a nonminimal coupling of gravity with the electromagneti...
In this thesis, we investigate the interaction between electromagnetic, gravitational, and plasma re...