Add to ORKGWhile Klein paradox is often encountered in the context of scattering of relativistic particles at a potential barrier, we presently discuss a puzzling situation that arises with the Klein-Gordon equation for bound states. With the usual minimal coupling procedure of introducing the interaction potential, a paradoxical situation arises when the 'hill' becomes a 'well', simulating a bound-state like situation. The phenomenal phenomenon for bound states is contrary to the conventional wisdom of quantum mechanics and is analogous to the well-known Klein paradox, a generic property of relativistic wave equations. PACs Nos. 03.65.Ge, 03.65.P
We reanalyze the problem of a 1D Dirac single-particle colliding with the electrostatic potential st...
We have obtained the analytic solutions of a relativistic spinless particle in a one-dimensional scr...
Using a suitable approximation scheme to the centrifugal barrier, we solved the 3-dimensional Klein-...
While Klien paradox is often encountered in the context of scattering of relativistic particles at a...
While Klien paradox is often encountered in the context of scattering of relativistic particles at ...
We analyse a little known aspect of the Klein paradox. A Klein-Gordon boson appears to be able to cr...
It is demonstrated that both transmission and reflection coefficients associated to the Klein parado...
Scattering of relativistic particles on very strong potentials exhibits unexpected behavior, known a...
The well known Klein paradox for the relativistic Dirac wave equation consists in the computation of...
Using numerical solutions to relativistic quantum field theory with space-time resolution, we illust...
Under certain hypotheses of smallness on the regular potential V, we prove that the Dirac operator i...
The standard Klein paradox describes how an incoming electron scatters off a supercritical electrost...
We study two-dimensional massive Dirac equation in circular well potential. The energies of bound st...
Two-dimensional massive Dirac equation in both potential well and linear potential is discussed. We ...
Two solutions to the Klein-Gordon equation are found. The existence of a maximum relativistic correc...
We reanalyze the problem of a 1D Dirac single-particle colliding with the electrostatic potential st...
We have obtained the analytic solutions of a relativistic spinless particle in a one-dimensional scr...
Using a suitable approximation scheme to the centrifugal barrier, we solved the 3-dimensional Klein-...
While Klien paradox is often encountered in the context of scattering of relativistic particles at a...
While Klien paradox is often encountered in the context of scattering of relativistic particles at ...
We analyse a little known aspect of the Klein paradox. A Klein-Gordon boson appears to be able to cr...
It is demonstrated that both transmission and reflection coefficients associated to the Klein parado...
Scattering of relativistic particles on very strong potentials exhibits unexpected behavior, known a...
The well known Klein paradox for the relativistic Dirac wave equation consists in the computation of...
Using numerical solutions to relativistic quantum field theory with space-time resolution, we illust...
Under certain hypotheses of smallness on the regular potential V, we prove that the Dirac operator i...
The standard Klein paradox describes how an incoming electron scatters off a supercritical electrost...
We study two-dimensional massive Dirac equation in circular well potential. The energies of bound st...
Two-dimensional massive Dirac equation in both potential well and linear potential is discussed. We ...
Two solutions to the Klein-Gordon equation are found. The existence of a maximum relativistic correc...
We reanalyze the problem of a 1D Dirac single-particle colliding with the electrostatic potential st...
We have obtained the analytic solutions of a relativistic spinless particle in a one-dimensional scr...
Using a suitable approximation scheme to the centrifugal barrier, we solved the 3-dimensional Klein-...