| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1543322 | Photonics and Nanostructures - Fundamentals and Applications | 2013 | 8 Pages |
In this paper, reflection against and transmission through thin plasmonic metal films, basic building blocks of many plasmonic devices, are analytically investigated directly in the time domain for an impulsive electric and magnetic line-source excitation. The electromagnetic properties of thin metallic films are modeled via the Drude model. The problem is formulated with the help of approximate thin-sheet boundary conditions and the analysis is carried out using the Cagniard–DeHoop technique. Closed-form space-time expressions are found and discussed. The obtained time-domain analytical expressions reveal the existence of the phenomenon of transient oscillatory surface effects along a plasmonic metal thin sheet. Illustrative numerical examples of transmitted/reflected pulsed fields are provided.
•The EM response of a thin plasmonic sheet is described analytically in time domain.•The existence of true surface waves along a Drude thin film is investigated.•Anomalous oscillatory surface effects along a plasmonic film are demonstrated.
