Pré-Publication, Document De Travail Année : 2007

Extra energy coupling through subwavelength hole arrays via stochastic resonance

Résumé

Interaction between metal surface waves and periodic geometry of subwavelength structures is at the core of the recent but crucial renewal of interest in plasmonics. One of the most intriguing points is the observation of abnormal strong transmission through these periodic structures, which can exceed by orders of magnitude the classical transmission given by the filling factor of the plate. The actual paradigm is that this abnormal transmission arises from the periodicity, and then that such high transmission should disappear in random geometries. Here, we show that extra energy can be coupled through the subwavelength structure by adding a controlled quantity of noise to the position of the apertures. This result can be modelled in the statistical framework of stochastic resonance. The evolution of the coupled energy with respect to noise gives access to the extra energy coupled at the surface of the subwavelength array.

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hal-00144098 , version 1 (30-04-2007)

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Jean-Baptiste Masson, Guilhem Gallot. Extra energy coupling through subwavelength hole arrays via stochastic resonance. 2007. ⟨hal-00144098⟩
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