Detail publikace
Pulsed EM radiation from a traveling-current plasmonic nanowire
ŠTUMPF, M. VANDENBOSCH, G.
Originální název
Pulsed EM radiation from a traveling-current plasmonic nanowire
Anglický název
Pulsed EM radiation from a traveling-current plasmonic nanowire
Jazyk
en
Originální abstrakt
Pulsed electromagnetic (EM) radiation from a traveling-current plasmonic-wire segment is studied ana-lytically using the unilateral Laplace-transform technique. This approach yields closed-form expressionsthat can be readily evaluated for given configurational and excitation parameters, thereby revealingphysical insight into the time-domain (TD) EM radiation behavior of a plasmonic nanowire. Illustrativenumerical examples concerning pulsed EM fields radiated from a gold nanowire are given and discussed.
Anglický abstrakt
Pulsed electromagnetic (EM) radiation from a traveling-current plasmonic-wire segment is studied ana-lytically using the unilateral Laplace-transform technique. This approach yields closed-form expressionsthat can be readily evaluated for given configurational and excitation parameters, thereby revealingphysical insight into the time-domain (TD) EM radiation behavior of a plasmonic nanowire. Illustrativenumerical examples concerning pulsed EM fields radiated from a gold nanowire are given and discussed.
Dokumenty
BibTex
@article{BUT129277,
author="Martin {Štumpf} and Guy A. E. {Vandenbosch}",
title="Pulsed EM radiation from a traveling-current plasmonic nanowire",
annote="Pulsed electromagnetic (EM) radiation from a traveling-current plasmonic-wire segment is studied ana-lytically using the unilateral Laplace-transform technique. This approach yields closed-form expressionsthat can be readily evaluated for given configurational and excitation parameters, thereby revealingphysical insight into the time-domain (TD) EM radiation behavior of a plasmonic nanowire. Illustrativenumerical examples concerning pulsed EM fields radiated from a gold nanowire are given and discussed.",
address="Elsevier B. V.",
chapter="129277",
doi="10.1016/j.photonics.2016.10.002",
howpublished="online",
institution="Elsevier B. V.",
number="1",
volume="22",
year="2016",
month="october",
pages="35--39",
publisher="Elsevier B. V.",
type="journal article in Web of Science"
}