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2D bifurcations in a system of interacting quantum molecules in a metamaterial matrix

V.Ch. Zhukovsky$^1$, V.D. Krevchik$^2$, M.B. Semenov$^2$, R.V. Zaitsev$^2$, A.K. Aryngazin$^3$, K. Yamamoto

Moscow University Physics Bulletin 2013. 68. N 3. P. 217

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Annotation

The influence of an electric field on 1D and 2D tunneling in a quantum molecule located in dielectric and metamaterial (with effective negative permittivity) matrices at a finite temperature has been theoretically investigated within the one-instanton approximation. It is shown that the stable mode of 2D bifurcations in a metamaterial matrix can be implemented in a much narrower range of parameters in comparison with conventional dielectric matrices. The dependence of the probability of 1D dissipative tunneling on the strength of an external electric field is qualitatively compared with the experimental tunnel I-V characteristic of semiconductor (InAs/GaAs) quantum dots.

Received: 2012 August 6
Approved: 2013 May 24
PACS:
73.21.La Quantum dots
73.63.Kv Quantum dots
Authors
V.Ch. Zhukovsky$^1$, V.D. Krevchik$^2$, M.B. Semenov$^2$, R.V. Zaitsev$^2$, A.K. Aryngazin$^3$, K. Yamamoto
$^1$Faculty of Physics, Moscow State University, Moscow, 119991, Russia
$^2$Penza State University, ul. Krasnaya 40, Penza, 440026, Russia
$^3$Gumilev Eurasian National University, Astana, 473021, Kazakhstan
$^4$Research Institute of the International Medical Center, Tokyo, Japan
Issue 3, 2013

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