Compensation of spin-orbit interaction using the geometric phase of distributed nanoslits for polarization-independent plasmonic vortex generation

A metasurface is a planar optical device that controls the phase, amplitude, and polarization of light through subwavelength-scale unit elements, called meta-atom. The tunability of plasmonic vortex lens (PVL) which generates surface plasmon polaritons (SPPs) carrying orbital angular momentum can be...

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Veröffentlicht in:	Optics express 2019-07, Vol.27 (14), p.19119-19129
Hauptverfasser:	Moon, Seong-Won, Jeong, Hee-Dong, Lee, Siwoo, Lee, Byoungho, Ryu, Yong-Sang, Lee, Seung-Yeol
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container_issue	14
container_start_page	19119
container_title	Optics express
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creator	Moon, Seong-Won Jeong, Hee-Dong Lee, Siwoo Lee, Byoungho Ryu, Yong-Sang Lee, Seung-Yeol
description	A metasurface is a planar optical device that controls the phase, amplitude, and polarization of light through subwavelength-scale unit elements, called meta-atom. The tunability of plasmonic vortex lens (PVL) which generates surface plasmon polaritons (SPPs) carrying orbital angular momentum can be improved by using meta-atom. However, conventional PVLs exhibit nonuniform field profiles according to the incident polarization states owing to the spin-orbital interaction (SOI) effect observed during SPP excitation. This paper describes a method of compensating for SOI of PVL by using the geometric phase of distributed nanoslits in a gold film. By designing the orientation angles of slit pairs, the anti-phase of the SOI effect can be generated for compensatory effect. In addition, polarization-independent PVLs are designed by applying a detour phase based on the position of the slit pairs. PVLs for center-, off-center-, and multiple-focus cases are demonstrated and measured via a near-field scanning microscope.
doi_str_mv	10.1364/OE.27.019119
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title	Compensation of spin-orbit interaction using the geometric phase of distributed nanoslits for polarization-independent plasmonic vortex generation
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