ELECTRON GAS IN ASYMMETRIC BICONVEX THIN QUANTUM LENS: REALIZATION OF KOHN’S THEOREM

D.B. Hajrapetyan; L.S. Petrosyan; E.M. Kazaryan; H.A. Sarkisyan

doi:10.46991/PYSU:A/2017.51.1.109

ELECTRON GAS IN ASYMMETRIC BICONVEX THIN QUANTUM LENS: REALIZATION OF KOHN’S THEOREM

Authors

D.B. Hajrapetyan Chair of Solid State Physics, YSU, Armenia, Russian-Armenian University
L.S. Petrosyan Jackson State University, Mississippi, USA
E.M. Kazaryan Russian-Armenian University, Armenia
H.A. Sarkisyan Chair of Solid State Physics, YSU, Russian-Armenian University, Armenia, Peter The Great Saint-Petersburg Polytechnical University, RF

DOI:

https://doi.org/10.46991/PYSU:A/2017.51.1.109

Keywords:

Kohn’s theorem, asymmetric biconvex thin quantum lens

Abstract

The problem of electromagnetic absorption in the electronic gas, which is localized in asymmetric biconvex thin quantum lens, is discussed. It is shown, that in the case of thin lens, in the plane of quantum lens electron gas is localized in two-dimensional parabolic confining potential. Thus, in this system the conditions for the realization of the generalized Kohn’s theorem are satisfied.

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Published

2017-03-20

How to Cite

Hajrapetyan, D., Petrosyan, L., Kazaryan, E., & Sarkisyan, H. (2017). ELECTRON GAS IN ASYMMETRIC BICONVEX THIN QUANTUM LENS: REALIZATION OF KOHN’S THEOREM. Proceedings of the YSU A: Physical and Mathematical Sciences, 51(1 (242), 109–112. https://doi.org/10.46991/PYSU:A/2017.51.1.109