Modelling the Localized Surface Plasmon Resonance of Nanoclusters of Group III Metals and Semimetallic Antimony
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https://elib.sfu-kras.ru/handle/2311/10307Author:
Moshchenko, Sergey P.
Lyamkina, Anna A.
Мощенко, Сергей П.
Лямкина, Анна А.
Date:
2014-04Abstract:
Surface plasmon resonance in metal nanodroplets formed by droplet epitaxy was studied numerically.
Metals compatible with molecular beam epitaxy and semimetallic antimony are shown to be effective for
plasmonic applications in infrared region. The resonance position can be controlled by varying the droplet
size. The increase in the effective droplet size results in the linear redshift of the resonance wavelength.
The nanodroplet parameters needed to match a particular quantum dot emission can be found Численно изучен поверхностный плазмонный резонанс в металлических нанокаплях, получен-
ных с помощью нанокапельной эпитаксии. Показано, что металлы, совместимые с методом
молекулярно-лучевой эпитаксии (МЛЭ), и полуметалл сурьма могут эффективно применяться в
плазмонных приложениях в инфракрасном диапазоне. Положением резонанса можно управлять,
изменяя размер капли, причем с увеличением эффективного размера резонанс линейно смещает-
ся в длинноволновую сторону. Метод позволяет найти параметры капель для подстройки под
излучение квантовых точек
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