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Literature DB >> 22339787

Spin-dependent plasmonics based on interfering topological defects.

Nir Shitrit¹, Sergey Nechayev, Vladimir Kleiner, Erez Hasman.

Abstract

Observation of spin-dependent plasmonics based on the interference of topological defects in the near-field is presented. We utilize the surface plasmons' scattering dynamics from localized vortex sources to create spinoptical devices as an ensemble of isolated nanoantennas to observe a "giant" spin-dependent plasmonic vortex and a spin-dependent plasmonic focusing lens. The spin-orbit point spread function, a spiral wavefront, is introduced, where the optical spin is a degree of freedom.

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Year: 2012 PMID： 22339787 DOI： 10.1021/nl204556r

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

4 in total

1. Short-range surface plasmonics: Localized electron emission dynamics from a 60-nm spot on an atomically flat single-crystalline gold surface.

Authors: Bettina Frank; Philip Kahl; Daniel Podbiel; Grisha Spektor; Meir Orenstein; Liwei Fu; Thomas Weiss; Michael Horn-von Hoegen; Timothy J Davis; Frank-J Meyer Zu Heringdorf; Harald Giessen
Journal: Sci Adv Date: 2017-07-12 Impact factor: 14.136

Spin-dependent plasmonics based on interfering topological defects.

1. Short-range surface plasmonics: Localized electron emission dynamics from a 60-nm spot on an atomically flat single-crystalline gold surface.

2. Spin-Independent Plasmonic Lens.

3. Near-field focus steering along arbitrary trajectory via multi-lined distributed nanoslits.

4. Controllable optical activity with non-chiral plasmonic metasurfaces.