Spinoptics: Spin-based plasmonics in Nanostru

Yuri Gorodetski; Konstantin Y. Bliokh; Avi Niv; Vladimir Kleiner; Erez Hasman

doi:10.1364/OPN.19.12.000043

Spinoptics: Spin-based plasmonics in Nanostru

Yuri Gorodetski, Konstantin Y. Bliokh, Avi Niv, Vladimir Kleiner, Erez Hasman^*

^*Corresponding author for this work

Research output: Contribution to specialist publication › General Article › peer-review

1 Citation (Scopus)

Abstract

A study was conducted to demonstrate the spin-dependent behavior of surface plasmon-polaritons (SPP) that resulted from a geometric Berry phase. The investigations revealed that the SPPs were found experimentally, while exploring the interaction of light with metallic anisotropic and inhomogeneous nanoscale structures. The proposed anisotropic inhomogeneous plasmonic structure was produced on top of a thin metal film evaporated onto a glass plate. It was found that the element consisted of a spiral Bragg grating with a central defect surrounded by a coupling grating. The intensity in the plasmonic cavity was measured by a near-field scanning optical microscope (NSOM), and it was observed that the measured intensity distribution exhibited a strong dependence on the incident spin in the SPP. The origin of the spin-dependent change in the near-field intensity distributions in the geometric phase of the excited plasmonic mode was investigated.

Original language	English
Pages	43
Number of pages	1
Volume	19
No.	12
Specialist publication	Optics and Photonics News
DOIs	https://doi.org/10.1364/OPN.19.12.000043
Publication status	Published - Dec 2008
Externally published	Yes

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title = "Spinoptics: Spin-based plasmonics in Nanostru",

abstract = "A study was conducted to demonstrate the spin-dependent behavior of surface plasmon-polaritons (SPP) that resulted from a geometric Berry phase. The investigations revealed that the SPPs were found experimentally, while exploring the interaction of light with metallic anisotropic and inhomogeneous nanoscale structures. The proposed anisotropic inhomogeneous plasmonic structure was produced on top of a thin metal film evaporated onto a glass plate. It was found that the element consisted of a spiral Bragg grating with a central defect surrounded by a coupling grating. The intensity in the plasmonic cavity was measured by a near-field scanning optical microscope (NSOM), and it was observed that the measured intensity distribution exhibited a strong dependence on the incident spin in the SPP. The origin of the spin-dependent change in the near-field intensity distributions in the geometric phase of the excited plasmonic mode was investigated.",

author = "Yuri Gorodetski and Bliokh, {Konstantin Y.} and Avi Niv and Vladimir Kleiner and Erez Hasman",

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T2 - Spin-based plasmonics in Nanostru

AU - Gorodetski, Yuri

AU - Bliokh, Konstantin Y.

AU - Niv, Avi

AU - Kleiner, Vladimir

AU - Hasman, Erez

PY - 2008/12

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N2 - A study was conducted to demonstrate the spin-dependent behavior of surface plasmon-polaritons (SPP) that resulted from a geometric Berry phase. The investigations revealed that the SPPs were found experimentally, while exploring the interaction of light with metallic anisotropic and inhomogeneous nanoscale structures. The proposed anisotropic inhomogeneous plasmonic structure was produced on top of a thin metal film evaporated onto a glass plate. It was found that the element consisted of a spiral Bragg grating with a central defect surrounded by a coupling grating. The intensity in the plasmonic cavity was measured by a near-field scanning optical microscope (NSOM), and it was observed that the measured intensity distribution exhibited a strong dependence on the incident spin in the SPP. The origin of the spin-dependent change in the near-field intensity distributions in the geometric phase of the excited plasmonic mode was investigated.

AB - A study was conducted to demonstrate the spin-dependent behavior of surface plasmon-polaritons (SPP) that resulted from a geometric Berry phase. The investigations revealed that the SPPs were found experimentally, while exploring the interaction of light with metallic anisotropic and inhomogeneous nanoscale structures. The proposed anisotropic inhomogeneous plasmonic structure was produced on top of a thin metal film evaporated onto a glass plate. It was found that the element consisted of a spiral Bragg grating with a central defect surrounded by a coupling grating. The intensity in the plasmonic cavity was measured by a near-field scanning optical microscope (NSOM), and it was observed that the measured intensity distribution exhibited a strong dependence on the incident spin in the SPP. The origin of the spin-dependent change in the near-field intensity distributions in the geometric phase of the excited plasmonic mode was investigated.

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Spinoptics: Spin-based plasmonics in Nanostru

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