Topological Laser-Induced Quantum States in Nanocluster Structures: Fundamental Effects and Possible Applications (Electrical and Optical)


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Abstract

Laser-induced nanocluster structures of different types (in topology and in elemental compositions of noble metal/carbon, bimetals, semiconductors, etc.) are studied theoretically and experimentally with allowance for the correlations in an ensemble of nanoparticles with quantum size states. The problem of high-temperature superconductivity (in the form of a sharp decrease in electrical resistivity) caused by topological surface structures leading to bound states of electrons based on new dimensional principles is discussed.

About the authors

S. M. Arakelian

Vladimir State University

Author for correspondence.
Email: arak@vlsu.ru
Russian Federation, Vladimir, 600000

T. A. Khudaberganov

Vladimir State University

Email: arak@vlsu.ru
Russian Federation, Vladimir, 600000

A. V. Istratov

Vladimir State University

Email: arak@vlsu.ru
Russian Federation, Vladimir, 600000

A. V. Osipov

Vladimir State University

Email: arak@vlsu.ru
Russian Federation, Vladimir, 600000

K. S. Khor’kov

Vladimir State University

Email: arak@vlsu.ru
Russian Federation, Vladimir, 600000

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