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open source FDTD solver with GPU support

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app:nanoantenna

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app:nanoantenna [2018/01/30 16:48]
pklapetek
app:nanoantenna [2018/08/28 22:39] (current)
pklapetek
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 {{ :​app:​f_plasmonic_tribit_ss.png?​100|}} {{ :​app:​f_plasmonic_tribit_ss.png?​100|}}
-Similar results can be obtained for two triangular metallic objects used as nanoantenna (see the simulation snapshot in the right figure). Here a spectral dependence of the field enhancement between the objects is shown for two different sizes of the whole system (l: total length, g: gap width) for wavelengths from 300 to 1300 nm.+Similar results can be obtained for two triangular metallic objects used as nanoantenna (see the simulation snapshot in the right figure). The objects have triangular base shape, but they are formed by layer of uniform thickness, so they can be prepared e.g. by some litography technique. Here a spectral dependence of the field enhancement between the objects is shown for two different sizes of the whole system (l: total length, g: gap width) for wavelengths from 300 to 1300 nm. 
  
  
 {{ :​app:​f_plasmonic_tribit.png?​500 |}} {{ :​app:​f_plasmonic_tribit.png?​500 |}}
 +
 +
 +----
 +//
 +{{ :​app:​img_metal_rod.png?​120|}}
 +Sample parameter file: {{app:​metal_rod.tar.gz|metallic nanorod}}.
 +\\
 +A simulation of a metallic nanorod illuminated by a plane wave.
 +//
 +----
 +
  
app/nanoantenna.1517327302.txt.gz · Last modified: 2018/01/30 16:48 by pklapetek