Add to ORKGThe physical consequences of the relativistic and nonrelativistic approaches to describe the energy levels of electrons which propagate in a static homogeneous magnetic field are considered. It is shown that for a given strength of the magnetic field, the quantized energy levels of the electrons calculated by nonrelativistic and relativistic equations differ substantially, up to few orders of magnitude for a magnetic field of about 1 Tesla. Experimental verification to resolve the discrepancy would be very welcome
International audienceMagnetic reconnection involves, for each particle species, a diffusion region,...
Basic electromagnetism and relativistic quantum theory are used to evaluate the magnetic field due t...
The relativistic motion of a charged particle in a homogeneous constant magnetic field and a transve...
It is shown that the relativistic wave equation for electrons in a uniform magnetic field leads to t...
A systematic formalism for quantum electrodynamics in a classical uniform magnetic field is discusse...
We investigate the motion of the charged spin-0 particles subjected to the space-dependent electric ...
The potentials and the field strengths of the electromagnetic field, the energies of particles and o...
Relativistic effects on the Thomas-Fermi model for atoms in a very strong magnetic field are conside...
We investigate the two-dimensional motion of relativistic cold electrons in the presence of ‘strictl...
<div><p>Abstract In this article we present a detailed description, using ladder operators, of an el...
We study how the behaviour of an electron in d.c. electric or magnetic fields changes when this elec...
Relativistic effects on the Thomas-Fermi model for atoms in a very strong magnetic field are conside...
This article is a continuation of the article Ref.[1]. In the article Ref.[1] was introduced an effe...
The behavior of electrons within a magnetic field is a fundamental topic in the realm of quantum mec...
The behavior of electrons within a magnetic field is a fundamental topic in the realm of quantum mec...
International audienceMagnetic reconnection involves, for each particle species, a diffusion region,...
Basic electromagnetism and relativistic quantum theory are used to evaluate the magnetic field due t...
The relativistic motion of a charged particle in a homogeneous constant magnetic field and a transve...
It is shown that the relativistic wave equation for electrons in a uniform magnetic field leads to t...
A systematic formalism for quantum electrodynamics in a classical uniform magnetic field is discusse...
We investigate the motion of the charged spin-0 particles subjected to the space-dependent electric ...
The potentials and the field strengths of the electromagnetic field, the energies of particles and o...
Relativistic effects on the Thomas-Fermi model for atoms in a very strong magnetic field are conside...
We investigate the two-dimensional motion of relativistic cold electrons in the presence of ‘strictl...
<div><p>Abstract In this article we present a detailed description, using ladder operators, of an el...
We study how the behaviour of an electron in d.c. electric or magnetic fields changes when this elec...
Relativistic effects on the Thomas-Fermi model for atoms in a very strong magnetic field are conside...
This article is a continuation of the article Ref.[1]. In the article Ref.[1] was introduced an effe...
The behavior of electrons within a magnetic field is a fundamental topic in the realm of quantum mec...
The behavior of electrons within a magnetic field is a fundamental topic in the realm of quantum mec...
International audienceMagnetic reconnection involves, for each particle species, a diffusion region,...
Basic electromagnetism and relativistic quantum theory are used to evaluate the magnetic field due t...
The relativistic motion of a charged particle in a homogeneous constant magnetic field and a transve...