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Electromagnetic Energy Density in Dispersive and Dissipative Media

Published

Author(s)

Frederico D. Nunes, Thiago Vasconcelos, Marcel Bezerra, John Weiner

Abstract

The description of the energy density associated with an electromagnetic field propagating through matter must treat two different phenomena: dispersion, the variation of the refractive index with frequency, and dissipation, the loss of field energy by absorption. In many cases, as in common metals, however, both dispersion and dissipation must be taken into account; and their respective contribution vary significantly with the frequency of the electromagnetic field. Plasmonic structures always involve surfaces between dielectrics and metals, and the energy density in the vicinity of the interface figures importantly in the dynamic response of these structures to light excitation in the visible and near-infrared region. Here we consider, from several different viewpoints, light energy propagated and dissipated at surfaces supporting eletromagnetic surface wave, including the important SPP, the surface plasmon-polariton wave guided by the metal-dielectric interface.
Citation
Physical Review B
Volume
28
Issue
6

Keywords

plasmon, surface wave, nanostructure

Citation

Nunes, F. , Vasconcelos, T. , Bezerra, M. and Weiner, J. (2011), Electromagnetic Energy Density in Dispersive and Dissipative Media, Physical Review B, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=906602 (Accessed March 28, 2024)
Created May 31, 2011, Updated October 12, 2021