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Designer magnetoplasmonics for adaptive nano-optics


Please use this identifier to cite or link to this item: http://hdl.handle.net/2077/53238

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Title: Designer magnetoplasmonics for adaptive nano-optics
Authors: Zubritskaya, Irina
E-mail: irina.zubritskaya@physics.gu.se
Issue Date: 24-Aug-2017
University: Göteborgs universitet. Naturvetenskapliga fakulteten
Institution: Department of Physics ; Institutionen för fysik
Parts of work: 1. Magnetoplasmonic design rules for active magneto-optics. Lodewijks, K.; Maccaferri, N.; Pakizeh, T.; Dumas, R. K.; Zubritskaya, I.; Akerman, J.; Vavassori, P.; Dmitriev, A. Nano Letters 2014, 14, (12), 7207-14.
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2. Active magnetoplasmonic ruler. Zubritskaya, I.; Lodewijks, K.; Maccaferri, N.; Mekonnen, A.; Dumas, R. K.; Åkerman, J.; Vavassori, P.; Dmitriev, A. Nano Letters 2015, 15, (5), 3204-11.
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3. Magnetic control of the chiroptical plasmonic surfaces. Zubritskaya, I; Maccaferri, N; Inchausti Ezeiza, X; Vavassori, P; and Dmitriev, A.

4. Transparent chiroptical magneto-dielectric surfaces. Zubritskaya, I; Maccaferri, N; Pedrueza Villialmanzo, E; Lumdee, C; Vavassori, P; and Dmitriev, A.
Date of Defence: 2017-09-15
Disputation: Fredagen den 15 september, kl. 10.00, PJ salen, Institutionen för fysik, Origovägen 6 B, 412 96 Göteborg
Degree: Doctor of Philosophy
Publication type: Doctoral thesis
Keywords: photonics
magnetoplasmonics
magneto-optics
magneto-optical Kerr effect (MOKE)
plasmon ruler
nickel
cobalt
gold
silicon
localized surface plasmon resonance
dimer
trimer
chiroptics
chiral transmission
2D nanoantennas
dynamic tuning
metal-dielectric
3D nanoantennas
metasurface
magnetic modulation
perpendicular magnetic anisotropy
Abstract: Materials that provide real-time control of the fundamental properties of light at visible and near-infrared frequencies enable the essential components for future optical devices. Metal nanostructures that couple electromagnetic (EM) radiation on a sub-wavelength length scale to free electrons, forming propagating or localized surface plasmons, provide many exciting functionalities due to their ability to manipulate light via the local EM field shaping and enhancement. Magnetoplasmonics is an e... more
ISBN: ISBN 978-91-629-0255-1
URI: http://hdl.handle.net/2077/53238
Appears in Collections:Doctoral Theses from University of Gothenburg / Doktorsavhandlingar från Göteborgs universitet
Doctoral Theses / Doktorsavhandlingar Institutionen för fysik

 

 

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