Add to ORKGCoulomb excitation matrix elements are often expressed in terms of the scalar electric potential and the elec-tromagnetic fields. We show that, through an appropriate gauge transformation, the excitation matrix elements can always be expressed in terms of the electromagnetic fields alone. This change in representation becomes important when the widths of the excited states are taken into account.
This article is a continuation of the article Ref.[1]. In the article Ref.[1] was introduced an effe...
In this paper we offer an expression of the general Foldy-Wouthuysen transformation in the chiral re...
We investigate two key representative semiclassical approaches for propagating resonant energy trans...
Coulomb excitation matrix elements are often expressed in terms of the scalar electric potential and...
Theory is developed for the electromagnetic scattering of nuclei or 'Coulomb excitation' as it is ge...
Eigenvectors for an electron in an atom in parallel electric and magnetic fields are calculated, and...
The wealth of Coulomb excitation data collected using present day experimental techniques allows mod...
How to cite Complete issue More information about this article Journal's homepage in redalyc.or...
It is shown that in semiclassical electrodynamics, which describes how electrically charged particle...
Based on the integral representation of the three-dimensional Coulomb transition matrix elaborated b...
Because they play a fundamental role in the calculation of bound electron stopping-powers, photon me...
We calculate the absorption spectrum of a single exciton, conned in an InxGa1xAs/GaAs disk-shaped qu...
A new basis for the calculation of the coherence matrices of the radiation emitted by a system is in...
The main notions of semiclassical scalar electrodynamics in different gauges (Hamiltonian, Couloumb,...
The S-matrix in quantum electrodynamics may be calculated alternatively from the Hamiltonian density...
This article is a continuation of the article Ref.[1]. In the article Ref.[1] was introduced an effe...
In this paper we offer an expression of the general Foldy-Wouthuysen transformation in the chiral re...
We investigate two key representative semiclassical approaches for propagating resonant energy trans...
Coulomb excitation matrix elements are often expressed in terms of the scalar electric potential and...
Theory is developed for the electromagnetic scattering of nuclei or 'Coulomb excitation' as it is ge...
Eigenvectors for an electron in an atom in parallel electric and magnetic fields are calculated, and...
The wealth of Coulomb excitation data collected using present day experimental techniques allows mod...
How to cite Complete issue More information about this article Journal's homepage in redalyc.or...
It is shown that in semiclassical electrodynamics, which describes how electrically charged particle...
Based on the integral representation of the three-dimensional Coulomb transition matrix elaborated b...
Because they play a fundamental role in the calculation of bound electron stopping-powers, photon me...
We calculate the absorption spectrum of a single exciton, conned in an InxGa1xAs/GaAs disk-shaped qu...
A new basis for the calculation of the coherence matrices of the radiation emitted by a system is in...
The main notions of semiclassical scalar electrodynamics in different gauges (Hamiltonian, Couloumb,...
The S-matrix in quantum electrodynamics may be calculated alternatively from the Hamiltonian density...
This article is a continuation of the article Ref.[1]. In the article Ref.[1] was introduced an effe...
In this paper we offer an expression of the general Foldy-Wouthuysen transformation in the chiral re...
We investigate two key representative semiclassical approaches for propagating resonant energy trans...