Add to ORKGEquations of motions and energy-momentum density tensors are obtained for a dispersive and dissipative medium sustaining electric and magnetic polarizations, using Lagrangian formalisms. A previous work on the subject by the authors has been simplified by reduction in the Lagrangian of the number of independent vector fields, with which the sink modes (associated with the dissipation) interact. The paper also formulates the dynamics of the electromagnetic field in the medium in a covariant (relativistic) manner. We discuss (and compare) the results, especially from the point of view of the positivity of the energy density
In this work, we review the main existing theories for the electromagnetic stress-energy tensor in d...
Copyright © 2011 American Physical Society - original articleCopyright © 2012 American Physical Soci...
Copyright © 2011 American Physical Society - original articleCopyright © 2012 American Physical Soci...
On the basis of a non-local Lagrangian for Maxwell equations in a dispersive medium, the energy-mome...
Aust. J. Phys.,1977,30, 533-75 Classical relativistic field theory is used as a basis for a general ...
The form of the phenomenological stress–energy-momentum tensor for the electromagnetic field in a cl...
The form of the phenomenological stress–energy-momentum tensor for the electromagnetic field in a cl...
The relativistic theory of the time- and position-dependent energy and momentum densities of light i...
AbstractWe develop a Hamiltonian theory for a time dispersive and dissipative (TDD) inhomogeneous me...
This work is concerned with the Lagrangian formulation of electromagnetic fields. Here, the extended...
The standard derivations of electromagnetic energy and momentum in media take Maxwell's equations as...
We are developing the fundamental equations of electrodynamics (for both electro-magnetism and dynam...
A Lagrangian formulation for a deformable and moving electromagnetic body is here proposed in the fr...
International audienceWe develop a dual description of quantum optics adapted to dielectric systems ...
Mechanical quantities, such as kinetic energy, momentum and inertia can be possibly associated with ...
In this work, we review the main existing theories for the electromagnetic stress-energy tensor in d...
Copyright © 2011 American Physical Society - original articleCopyright © 2012 American Physical Soci...
Copyright © 2011 American Physical Society - original articleCopyright © 2012 American Physical Soci...
On the basis of a non-local Lagrangian for Maxwell equations in a dispersive medium, the energy-mome...
Aust. J. Phys.,1977,30, 533-75 Classical relativistic field theory is used as a basis for a general ...
The form of the phenomenological stress–energy-momentum tensor for the electromagnetic field in a cl...
The form of the phenomenological stress–energy-momentum tensor for the electromagnetic field in a cl...
The relativistic theory of the time- and position-dependent energy and momentum densities of light i...
AbstractWe develop a Hamiltonian theory for a time dispersive and dissipative (TDD) inhomogeneous me...
This work is concerned with the Lagrangian formulation of electromagnetic fields. Here, the extended...
The standard derivations of electromagnetic energy and momentum in media take Maxwell's equations as...
We are developing the fundamental equations of electrodynamics (for both electro-magnetism and dynam...
A Lagrangian formulation for a deformable and moving electromagnetic body is here proposed in the fr...
International audienceWe develop a dual description of quantum optics adapted to dielectric systems ...
Mechanical quantities, such as kinetic energy, momentum and inertia can be possibly associated with ...
In this work, we review the main existing theories for the electromagnetic stress-energy tensor in d...
Copyright © 2011 American Physical Society - original articleCopyright © 2012 American Physical Soci...
Copyright © 2011 American Physical Society - original articleCopyright © 2012 American Physical Soci...