Add to ORKGA non-perturbative quantization of a paraxial electromagnetic field is achieved via a generalized dispersion relation imposed on the longitudinal and the transverse components of the photon wave vector. The theoretical formalism yields a seamless transition between the paraxial- and the Maxwell-equation solutions. This obviates the need to introduce either "ad hoc" or perturbatively-defined field operators. In the limit of narrow beam-like fields, the theory is in agreement with approximated quantization schemes provided by other authors
The analysis of paraxial Gaussian beams features in most undergraduate courses in laser physics, adv...
The Schrödinger motion of a charged quantum particle in an electromagnetic potential can be simulate...
A technique of canonical quantization in a general dispersive nonlinear dielectric medium is present...
With the extension of the work of the preceding paper, the relativistic front form for Maxwell's equ...
International audienceWe employ here the enhancement of the vector potential amplitude quantization ...
With the extension of the work of the preceding paper, the relativistic front form for Maxwell's equ...
We employ another approach to quantize electromagnetic fields in the coordinate space, instead of th...
General linear electrodynamics allow for an arbitrary linear constitutive relation between the field...
The quantization of the electromagnetic field in vacuum is presented without reference to lagrangean...
A quantum field theory approach is put forward to generalize the concept of classical spatial light ...
We find the action that describes the electromagnetic field in a spatially dispersive, homogeneous m...
Compressed states of light are investigated in the paper aiming at the quantum theory construction f...
5th International Conference on Mathematical Modeling in Physical Sciences (IC-MSquare 2016)Internat...
A manifestly covariant procedure for quantization of the electro-magnetic potentials Amu is presente...
International audienceA photon structure is advanced based on the experimental evidence and the vect...
The analysis of paraxial Gaussian beams features in most undergraduate courses in laser physics, adv...
The Schrödinger motion of a charged quantum particle in an electromagnetic potential can be simulate...
A technique of canonical quantization in a general dispersive nonlinear dielectric medium is present...
With the extension of the work of the preceding paper, the relativistic front form for Maxwell's equ...
International audienceWe employ here the enhancement of the vector potential amplitude quantization ...
With the extension of the work of the preceding paper, the relativistic front form for Maxwell's equ...
We employ another approach to quantize electromagnetic fields in the coordinate space, instead of th...
General linear electrodynamics allow for an arbitrary linear constitutive relation between the field...
The quantization of the electromagnetic field in vacuum is presented without reference to lagrangean...
A quantum field theory approach is put forward to generalize the concept of classical spatial light ...
We find the action that describes the electromagnetic field in a spatially dispersive, homogeneous m...
Compressed states of light are investigated in the paper aiming at the quantum theory construction f...
5th International Conference on Mathematical Modeling in Physical Sciences (IC-MSquare 2016)Internat...
A manifestly covariant procedure for quantization of the electro-magnetic potentials Amu is presente...
International audienceA photon structure is advanced based on the experimental evidence and the vect...
The analysis of paraxial Gaussian beams features in most undergraduate courses in laser physics, adv...
The Schrödinger motion of a charged quantum particle in an electromagnetic potential can be simulate...
A technique of canonical quantization in a general dispersive nonlinear dielectric medium is present...