We have recently demonstrated a valuable fabrication path for the integration and patterning of functional materials at micro and nano-scale onto optical fibers, posing the basis for a new and emerging technological vision named "Lab on Fiber". This process has been validated through the realization, directly onto the fiber tip, of 2D metallo-dielectric nano-crystals, supporting local surface plasmon resonances (LSPRs). In this work, we demonstrate numerically and experimentally, how it is possible to obtain polarization sensitive devices, by breaking the circular crystal symmetry and/or the lattice periodicity of our platform.
Fiber Optic Nanoprobes as Polarization Sensitive Devices
Crescitelli A;Esposito E;
2014
Abstract
We have recently demonstrated a valuable fabrication path for the integration and patterning of functional materials at micro and nano-scale onto optical fibers, posing the basis for a new and emerging technological vision named "Lab on Fiber". This process has been validated through the realization, directly onto the fiber tip, of 2D metallo-dielectric nano-crystals, supporting local surface plasmon resonances (LSPRs). In this work, we demonstrate numerically and experimentally, how it is possible to obtain polarization sensitive devices, by breaking the circular crystal symmetry and/or the lattice periodicity of our platform.File in questo prodotto:
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