Double Fano resonances in disk-nonconcentric ring plasmonic nanostructures
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Abstract:
The plasmonic properties of gold nanostructures composed of a disk outside a nonconcentric ring are numerically studied by the finite difference time domain method. Simulated results show that two Fano resonances are formed as a result of the coupling of the octupolar and quadrupolar modes of the ring with the dipolar mode of the disk. The reduction in structural symmetry causes a red shift of the Fano resonances and distinct changes in spectral lineshape by offsetting the center of the inner surface of the ring to different directions. The effects of several geometric parameters on the characteristics of Fano resonances are also discussed. In addition, the refractive index sensitivities for the two Fano resonances can be up to 581 nm/RIU and 780 nm/RIU with the corresponding figure of merits as large as 12.7 and 10.2, respectively. Such properties render the structures useful for potential applications in multiwavelength sensors.
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Project Supported:
the Qingchuang Science and Technology Plan of Shandong Universities, China: [grant number 2019KJN001]; the Project Special Funding of Taishan Scholar, China: [grant number 201909150]
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