Detail publikace
Impulsive electromagnetic response of thin plasmonic metal sheets
ŠTUMPF, M. VANDENBOSCH, G.
Originální název
Impulsive electromagnetic response of thin plasmonic metal sheets
Anglický název
Impulsive electromagnetic response of thin plasmonic metal sheets
Jazyk
en
Originální abstrakt
The impulsive electromagnetic response of a thin metallic coating on a dielectric half-space is analytically investigated. Both TM- and TE-polarized electromagnetic fields in the configuration are excited by an impulsive line source. The problem is analytically solved with the help of the high-contrast thin-sheet boundary conditions and the extended Cagniard-DeHoop technique. Closed-form space-time expressions for electromagnetic fields are found, numerically evaluated, and discussed with regard to the pulsed excitation of surface plasmon phenomena.
Anglický abstrakt
The impulsive electromagnetic response of a thin metallic coating on a dielectric half-space is analytically investigated. Both TM- and TE-polarized electromagnetic fields in the configuration are excited by an impulsive line source. The problem is analytically solved with the help of the high-contrast thin-sheet boundary conditions and the extended Cagniard-DeHoop technique. Closed-form space-time expressions for electromagnetic fields are found, numerically evaluated, and discussed with regard to the pulsed excitation of surface plasmon phenomena.
Dokumenty
BibTex
@article{BUT109909,
author="Martin {Štumpf}",
title="Impulsive electromagnetic response of thin plasmonic metal sheets",
annote="The impulsive electromagnetic response of a thin metallic coating on a dielectric half-space is analytically investigated. Both TM- and TE-polarized electromagnetic fields in the configuration are excited by an impulsive line source. The problem is analytically solved with the help of the high-contrast thin-sheet boundary conditions and the extended Cagniard-DeHoop technique. Closed-form space-time expressions for electromagnetic fields are found, numerically evaluated, and discussed with regard to the pulsed excitation of surface plasmon phenomena.",
address="American Geophysical Union",
chapter="109909",
doi="10.1002/2014RS005437",
howpublished="print",
institution="American Geophysical Union",
number="8",
volume="49",
year="2014",
month="september",
pages="689--697",
publisher="American Geophysical Union",
type="journal article in Web of Science"
}