Sensitive label-free sensor with high figure of merit based on plasmonic metasurface with unit cell of double two-split nanorings

Sensitive label-free sensor with high figure of merit based on plasmonic metasurface with unit cell of double two-split nanorings

We theoretically propose a sensitive label-free sensor with high figure of merit (FoM) based on Fano resonances on a plasmonic metasurface whose unit cell consists of double two-split nanorings by finite-element method. The unit cell of the proposed Fano resonant structure comprises of two thin gold...

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Bibliographic Details
Published in:Journal of materials science Vol. 54; no. 8; pp. 6301 - 6309
Main Authors: Muhammad, Naseer, Ouyang, Zhengbiao, Liu, Qiang, Tang, Xiaopin, Deng, Zi-Lan, Daud Khan, Adnan
Format: Journal Article
Language:English
Published: New York Springer US 01-04-2019
Springer
Springer Nature B.V
Subjects:
Broken symmetry
Characterization and Evaluation of Materials
Chemistry and Materials Science
Classical Mechanics
Computation and Theory
Crystallography and Scattering Methods
Fiber optic equipment
Figure of merit
Finite element method
Materials Science
Metasurfaces
Plasmonics
Polymer Sciences
Q factors
Refractivity
Sensors
Solid Mechanics
Unit cell
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Summary:We theoretically propose a sensitive label-free sensor with high figure of merit (FoM) based on Fano resonances on a plasmonic metasurface whose unit cell consists of double two-split nanorings by finite-element method. The unit cell of the proposed Fano resonant structure comprises of two thin gold nanorings each with two splits. Two Fano modes are generated in near-infrared regime through symmetry breaking by rotating the splits in nanorings in opposite directions. The fundamental feature of the proposed sensor is its relatively simple structure, double-mode usable, a large single-side quality factor of 566, and high FoM value of 378. According to our knowledge, these values are higher than those previously reported. The sensor has high substance resolving capability that its minimum detectable refractive index change can be as small as 0.00236, making it possible to distinguish different bio-tissues.
ISSN:0022-2461
1573-4803
DOI:10.1007/s10853-018-03228-3