Energy Levels of Conduction Electrons in Nickel Nanocluster

Software Engineering Methods Design and Application: Proceedings of 13th Computer Science Online Conference (CSOC 2024). Lecture Notes in Networks and Systems. Vol.1118 2024
Alexander Nikulushkin, Vjačeslavs Bobrovs

In this article, a new theoretical approach to studying light-scattering characteristics of nanosized objects based on the solution to the Thomas–Fermi equation and quasi-classical approximation is considered. It is shown that the distribution of valence electrons in the volume of metallic clusters exhibits a specific structure of “spatial zones.” With the aid of quasi-classical wave functions, expressions for the appropriate dipole moments of the transitions between the ground and excited states are obtained; the behavior of the spectrum of gold clusters depending on their sizes is studied; a comparison with existing experimental data is carried out#CSOC1120.

Keywords
effective refractive index; nanoparticle; nanophotonics
DOI
10.1007/978-3-031-70285-3_59
Hyperlink
https://link.springer.com/chapter/10.1007/978-3-031-70285-3_59

Nikulushkin, A., Bobrovs, V. Energy Levels of Conduction Electrons in Nickel Nanocluster. In: Software Engineering Methods Design and Application: Proceedings of 13th Computer Science Online Conference (CSOC 2024). Lecture Notes in Networks and Systems. Vol.1118, Germany, Berlin, 25-28 April, 2024. Cham: Springer Science and Business Media Deutschland GmbH, 2024, pp.770-781. ISBN 978-303170284-6. ISSN 2367-3370. Available from: doi:10.1007/978-3-031-70285-3_59

Publication language
English (en)