Progress in the Design of New Photonics and Optoelectronics Elements Using Advantages of Contemporary Femto-Nanophotonics


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We consider experimentally and theoretically the detection of quantum states in nanocluster semiconductor/metal structures upon the registration of hopping/tunneling electrical conductivity and possible mechanisms of realization of such states. We obtain nanostructured thin films on the substrates using different technologies, including laser ablation of solid surfaces. We show that it is possible to control the properties of the films by varying the topology of such synthesized systems. We analyze the features arising due to the specific conductivity of granular media revealed by the measured current–voltage characteristics and electrical resistance dependences for nanocluster bimetallic films of different compositions.

Sobre autores

S. Arakelian

Department of Physics and Applied Mathematics, A. G. Stoletov and N. G. Stoletov Vladimir State University

Autor responsável pela correspondência
Email: arak@vlsu.ru
Rússia, Vladimir, 600000

A. Kucherik

Department of Physics and Applied Mathematics, A. G. Stoletov and N. G. Stoletov Vladimir State University

Email: arak@vlsu.ru
Rússia, Vladimir, 600000

S. Kutrovskaya

Department of Physics and Applied Mathematics, A. G. Stoletov and N. G. Stoletov Vladimir State University

Email: arak@vlsu.ru
Rússia, Vladimir, 600000

K. Khorkov

Department of Physics and Applied Mathematics, A. G. Stoletov and N. G. Stoletov Vladimir State University

Email: arak@vlsu.ru
Rússia, Vladimir, 600000

A. Istratov

Department of Physics and Applied Mathematics, A. G. Stoletov and N. G. Stoletov Vladimir State University

Email: arak@vlsu.ru
Rússia, Vladimir, 600000

A. Osipov

Department of Physics and Applied Mathematics, A. G. Stoletov and N. G. Stoletov Vladimir State University

Email: arak@vlsu.ru
Rússia, Vladimir, 600000

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