Matan Revah scite author profile

Matan Revah

3Publications

8Citation Statements Received

54Citation Statements Given

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Ariel University

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Spin-locking metasurface for surface plasmon routing

Revah

Yaroshevsky

Gorodetski

2019

Sci Rep

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Nanophotonic circuitry requires an ability to externally control and analyze optical signals tightly confined in subwavelength volumes. Various schemes of surface plasmon (SP) routing have been presented using active and passive metasurfaces. One of the most appealing approaches is the use of plasmonic spin-orbit interaction where the incident light spin state is efficiently coupled to an orbital degree of freedom of the surface wave. Recently, a major attention has been drawn to an additional plasmonic degree of freedom - the transverse spin and some application for near-field plasmonic manipulations have been presented. Here we propose a spin-locking metasurface incorporating a transverse spin of the SP wave to selectively route the near-field beams. Owing to the combination of the oblique incidence of circularly polarized light with the accurately designed momentum matching of the grating we achieve a precise directional control over the plasmonic distributions. The experimental verification of the directional launching is performed by a time-resolved leakage radiation measurements allowing one to visualize the shape and the dynamics of the excited beam.

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Unusual polarizing effect of cylindrical plasmonic holes

Revah¹,

Nechayev²,

Gorodetski³

2018

Opt. Lett.

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We observe an unusual polarization state conversion in the light that passes through a cylindrical hole in a thick metal film. This phenomenon is related to the helicity locking of the guided mode due to the plasmonic transverse spin-an intrinsic angular momentum of the surface waves. We show how this effect is linked to the generation of the plasmonic vortex inside the hole and can be altered by varying the hole diameter. In addition, the total light transmission through the hole is shown to be partially contributed from the direct transmission, which can further modify the resulting light polarization state.

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Spin-locking metasurface for surface plasmon routing

Revah

Yaroshevsky

Gorodetski

2018

Preprint

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Matan Revah

Spin-locking metasurface for surface plasmon routing

Unusual polarizing effect of cylindrical plasmonic holes

Spin-locking metasurface for surface plasmon routing

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