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@@ -131,12 +131,8 @@ In~\cite{gimzewski1989enhanced} it was demonstrated that when a tunnel contact i
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Quantum yield of the photon emission in the discussed process is sufficiently low with an efficiency at the level of ($10^{-6}-10^{-4}$). To enhance probability of the photon or plasmon emission an optical nanoantenna having sub-wavelength size can be localized in a gap under the probe tip \cite{parzefall2017antenna}. In~\cite{Greffet2016nanoantenna} it was demonstrated theoretically that placement of a metal nanoantenna under the STM probe tip leads to narrowing of the optical emission spectrum in a tunnel junction and enhances quantum yield of the photon and plasmon emission for more than 2 orders of magnitude. In addition, an amplification of a planar metal structure electroluminescence with a placement of spherical Au nanoantenna in a tunnel gap was demonstrated experimentally in \cite{kern2015electrically}.
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Quantum yield of the photon emission in the discussed process is sufficiently low with an efficiency at the level of ($10^{-6}-10^{-4}$). To enhance probability of the photon or plasmon emission an optical nanoantenna having sub-wavelength size can be localized in a gap under the probe tip \cite{parzefall2017antenna}. In~\cite{Greffet2016nanoantenna} it was demonstrated theoretically that placement of a metal nanoantenna under the STM probe tip leads to narrowing of the optical emission spectrum in a tunnel junction and enhances quantum yield of the photon and plasmon emission for more than 2 orders of magnitude. In addition, an amplification of a planar metal structure electroluminescence with a placement of spherical Au nanoantenna in a tunnel gap was demonstrated experimentally in \cite{kern2015electrically}.
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-В настоящей работе мы исследуем влияние
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-свойств поверхности золотых пленок на эффективность излучения фотонов
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-под острием СТМ. Выявление влияния морфологии образца на
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-эффективность эмиссии фотонов является крайне важным для
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-реализации эффективных источников локального излучения света.
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+ In this work, we study influence of Au film surface properties on the photon emission efficiency in a tunnel gap under STM probe tip. Investigation of the surface morphology effects on emission is an extremely important problem on the way to development of efficient local light sources.
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% Универсальным прибором для изучения туннельного контакта, является
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% Универсальным прибором для изучения туннельного контакта, является
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% сканирующий туннельный микроскоп (СТМ). При работе с СТМ, для
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% сканирующий туннельный микроскоп (СТМ). При работе с СТМ, для
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% создания М-Д-М контакта используются металлический зонд и
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% создания М-Д-М контакта используются металлический зонд и
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Alexey D. Bolshakov