Abonnement à la biblothèque: Guest
Portail numérique Bibliothèque numérique eBooks Revues Références et comptes rendus Collections
Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN Imprimer: 0040-2508
ISSN En ligne: 1943-6009

Volumes:
Volume 78, 2019 Volume 77, 2018 Volume 76, 2017 Volume 75, 2016 Volume 74, 2015 Volume 73, 2014 Volume 72, 2013 Volume 71, 2012 Volume 70, 2011 Volume 69, 2010 Volume 68, 2009 Volume 67, 2008 Volume 66, 2007 Volume 65, 2006 Volume 64, 2005 Volume 63, 2005 Volume 62, 2004 Volume 61, 2004 Volume 60, 2003 Volume 59, 2003 Volume 58, 2002 Volume 57, 2002 Volume 56, 2001 Volume 55, 2001 Volume 54, 2000 Volume 53, 1999 Volume 52, 1998 Volume 51, 1997

Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v77.i2.50
pages 145-154

RESONANT PROPERTIES OF BRIGHT PLASMONS OF A FINITE LINEAR CHAIN OF NANOWIRES OF PRECIOUS METALS

N. P. Stognii
Kharkiv National University of Radio Engineering and Electronics, 14 Nauka Ave, Kharkiv, 61166, Ukraine
N. K. Sakhnenko
Kharkiv National University of Radio Engineering and Electronics, 14 Nauka Ave, Kharkiv, 61166, Ukraine
O. M. Titarenko
Kharkiv National University of Radio Engineering and Electronics, 14 Nauka Ave, Kharkiv, 61166, Ukraine

RÉSUMÉ

Resonance properties of "bright" localized plasmons of a finite linear chain of nanowires made of noble metals are considered.
It is established that in the gap between the nanowires the areas of strong concentration of a field are formed on spatial scales of much smaller length than the wavelength. Position of the increasing concentration area depends on the number of wires in the chain. It is established that with the increase in the number of nanowires and reduction of the gap between them the field concentration increases.
It is shown how the change of the properties of the external environment acts on the plasmon resonancethe of wires made of noble metals. The far-field concentration in a narrow wave beam in a chain of silver wires is demonstrated. It was found that with the increase in the number of nanowires in a chain the radiation direction is improving.


Articles with similar content:

Amplification of the Multifrequency Signal in the Coaxial Slow-Wave Structure
Telecommunications and Radio Engineering, Vol.67, 2008, issue 2
P. I. Markov, K. V. Galaidych, G. V. Sotnikov
"BRIGHT" PLASMONS OF TRIANGLE OR QUADRANGLE CLUSTERS OF NOBLE METAL WIRES
Telecommunications and Radio Engineering, Vol.77, 2018, issue 5
N. K. Sakhnenko, N. P. Stognii
Edge Magnetoplasmons in a Finite Array of Two-Dimensional Electron Gas Strips
Telecommunications and Radio Engineering, Vol.63, 2005, issue 2-6
N. N. Beletskii, Yu. V. Bludov
SURFACE STATES IN A FINE-STRATIFIED PERIODIC STRUCTURE IN A MAGNETIC FIELD
Telecommunications and Radio Engineering, Vol.73, 2014, issue 5
I. V. Fedorin, A. A. Bulgakov
The Mechanisms Forming Photoelectrical Properties of p-GaSe-n-InSe Heterojunction
Telecommunications and Radio Engineering, Vol.57, 2002, issue 12
Victor P. Makhniy, Z. D. Kovalyuk, O. I. Yanchuk