EXCITON STATES OF THE OPTICAL ELECTRONS OF DIELECTRIC NANOPARTICLES IN DIELECTRIC MATRIX
( Pp. 39-42)

More about authors
Kulchin Yuri N. doktor fiz.-mat.nauk, professor, akademik RAN, Zasluzhennyy deyatel nauki Rossiyskoy Federacii, Pochetnyy rabotnik vysshego professionalnogo obrazovaniya Rossiyskoy Federacii, Pochetnyy chlen mezhdunarodnogo obschestva SPIE, Direktor. Institut Avtomatiki i Processov Upravleniya DVO RAN, Vladivostok, Rossiya
Institute of Automation and Control Processes FEB RAS, Vladivostok, Russia Dzyuba Vladimir P. g.n.s., doktor fiz-mat.nauk, professor.
Institute of Automation and Control Processes FEB RAS, Vladivostok, Russia Amosov Andrey V. inzhener
Institute of Automation and Control Processes FEB RAS, Vladivostok, Russia
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Abstract:
The report presents and analyzes the experimental and theoretical results showing that the dielectric nanoparticles have the exciton states of electrons with binding energy of several electron volts, which are excited by the weak optical laser radiation. Such materials with a wide spectrum of exciton states are important for creation: exciton lasers and optical emitters; receiving and emitting optical nano-antennas; control and processing information and signals; generation low-power optical solitons; optical computers etc.
How to Cite:
Kulchin Y.N., Dzyuba V.P., Amosov A.V., (2014), EXCITON STATES OF THE OPTICAL ELECTRONS OF DIELECTRIC NANOPARTICLES IN DIELECTRIC MATRIX. Computational Nanotechnology, 1: 39-42.
Keywords:
dielectric nanoparticles, exciton States, optical nonlinearity.