The introduction of defects in photonic lattices generally allows to control the localization and the propagation of light. While point defects are conventionally used in order to obtain localized photonic states, linear defects are introduced for waveguiding EM waves. In this work we demonstrate the possibility of obtaining localized states also in a waveguiding configuration, by using quasicrystalline lattices. This result opens a new range of possibilities in designing optical circuits, in which the localization- propagation switch is easly obtainable by mechanical or opto-electric methods.
Trabattoni, A., Maini, L., Benedek, G. (2012). Stopping light in two dimensional quasicrystalline waveguides. OPTICS EXPRESS, 20(27), 28267-28272 [10.1364/OE.20.028267].
Stopping light in two dimensional quasicrystalline waveguides
BENEDEK, GIORGIO
2012
Abstract
The introduction of defects in photonic lattices generally allows to control the localization and the propagation of light. While point defects are conventionally used in order to obtain localized photonic states, linear defects are introduced for waveguiding EM waves. In this work we demonstrate the possibility of obtaining localized states also in a waveguiding configuration, by using quasicrystalline lattices. This result opens a new range of possibilities in designing optical circuits, in which the localization- propagation switch is easly obtainable by mechanical or opto-electric methods.
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