Optical Tuning of Nanospheres Through Phase Transition: An Optical Nanocircuit Analysis

Cuadrado, Alexander; Toudert, Johan; García Cámara, Braulio; Vergaz Benito, Ricardo; González Benito, Francisco Javier; Alda, Javier; Serna, Rosalía

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Optical Tuning of Nanospheres Through Phase Transition: An Optical Nanocircuit Analysis

Author(s): Cuadrado, Alexander; Toudert, Johan; García Cámara, Braulio; Vergaz Benito, Ricardo; González Benito, Francisco Javier; Alda, Javier; Serna, Rosalía

Publisher: IEEE

Issued date: 2016-11-07

Citation: IEEE Photonics Technology Letters, (2016), 28(24), pp.: 2878-2881.

ISSN: 1041-1135

DOI: https://doi.org/10.1109/LPT.2016.2626140

xmlui.dri2xhtml.METS-1.0.item-contributor-funder: Ministerio de Economía y Competitividad (España)

Sponsor: This work was supported by the Ministerio de Economía y Competitividad of Spain, project 32 of CEMIE-Solar from Secretara de Energía-Sustentabilidad Energética and the Terahertz Science and Technology National Lab from CONACYT (México) under Grant TEC2012-38901-C02-01, Grant TEC2015-69916-C2-1-R, Explora Grant TEC2013-50138-EXP, Grant TEC2013-40442, and Grant PR2015-00063.

Project: Gobierno de España. TEC2013-50138-EXP
Gobierno de España. TEC2015-69916-C2-1-R
Gobierno de España. TEC2012-38901-C02-01
Gobierno de España. TEC2013-40442
Gobierno de España. PR2015-00063

Keywords: Plasmonics , Nanophotonics , Nanoparticles , Gallium , Solids , Impedance , Dielectrics , Liquids , RLC circuits

URI: http://hdl.handle.net/10016/35624

Abstract:

Plasmonic nanostructures can be described by equivalent impedance, allowing the analysis of their properties and performance by an RLC circuit equivalent model. In this letter, the equivalent impedance has been obtained from a power budget calculation that con [+]

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