Physics – Condensed Matter – Other Condensed Matter
Scientific paper
2007-04-24
Physics
Condensed Matter
Other Condensed Matter
11 pages, grant number added
Scientific paper
In this article it is shown that, Sommerfeld's coefficients for excitonic transitions in quantum wells are determined only with the principle quantum number within the framework of two-dimensional Coulomb potential. This is a consequence of hidden symmetry of two-dimensional Coulomb problem, conditioned by the existence of two-dimensional analog of the Runge-Lentz vector. For the narrow gap semiconductor quantum well with the non-parabolic dispersion law of electron and hole in the two-band Kane model it is shown that two-dimensional excitonic states are described in the frames of an analog of Klein-Gordon equation with the two-dimensional Coulomb potential. The non-stability of the ground state of the two-dimensional Kane's exciton is show.
Kazaryan E. M.
Petrosyan L. S.
Sarkisyan H. A.
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