Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes

Francisco J. Rodriguez-Fortuno; Giuseppe Marino; Pavel Ginzburg; Daniel O'Connor; Alejandro Martinez; Gregory A. Wurtz; Anatoly V. Zayats

doi:10.1126/science.1233739

Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes

Francisco J. Rodriguez-Fortuno, Giuseppe Marino, Pavel Ginzburg, Daniel O'Connor, Alejandro Martinez, Gregory A. Wurtz, Anatoly V. Zayats^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

578 Citations (Scopus)

Abstract

Wave interference is a fundamental manifestation of the superposition principle with numerous applications. Although in conventional optics, interference occurs between waves undergoing different phase advances during propagation, we show that the vectorial structure of the near field of an emitter is essential for controlling its radiation as it interferes with itself on interaction with a mediating object. We demonstrate that the near-field interference of a circularly polarized dipole results in the unidirectional excitation of guided electromagnetic modes in the near field, with no preferred far-field radiation direction. By mimicking the dipole with a single illuminated slit in a gold film, we measured unidirectional surface-plasmon excitation in a spatially symmetric structure. The surface wave direction is switchable with the polarization.

Original language	English
Pages (from-to)	328-330
Number of pages	3
Journal	Science
Volume	340
Issue number	6130
DOIs	https://doi.org/10.1126/science.1233739
Publication status	Published - 19 Apr 2013

Keywords

BROAD-BAND
LENSES
PROPAGATION
PHASE
SURFACE-PLASMONS
ANTENNAS
RADIATION

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10.1126/science.1233739

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abstract = "Wave interference is a fundamental manifestation of the superposition principle with numerous applications. Although in conventional optics, interference occurs between waves undergoing different phase advances during propagation, we show that the vectorial structure of the near field of an emitter is essential for controlling its radiation as it interferes with itself on interaction with a mediating object. We demonstrate that the near-field interference of a circularly polarized dipole results in the unidirectional excitation of guided electromagnetic modes in the near field, with no preferred far-field radiation direction. By mimicking the dipole with a single illuminated slit in a gold film, we measured unidirectional surface-plasmon excitation in a spatially symmetric structure. The surface wave direction is switchable with the polarization.",

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T1 - Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes

AU - Rodriguez-Fortuno, Francisco J.

AU - Marino, Giuseppe

AU - Ginzburg, Pavel

AU - O'Connor, Daniel

AU - Martinez, Alejandro

AU - Wurtz, Gregory A.

AU - Zayats, Anatoly V.

PY - 2013/4/19

Y1 - 2013/4/19

N2 - Wave interference is a fundamental manifestation of the superposition principle with numerous applications. Although in conventional optics, interference occurs between waves undergoing different phase advances during propagation, we show that the vectorial structure of the near field of an emitter is essential for controlling its radiation as it interferes with itself on interaction with a mediating object. We demonstrate that the near-field interference of a circularly polarized dipole results in the unidirectional excitation of guided electromagnetic modes in the near field, with no preferred far-field radiation direction. By mimicking the dipole with a single illuminated slit in a gold film, we measured unidirectional surface-plasmon excitation in a spatially symmetric structure. The surface wave direction is switchable with the polarization.

AB - Wave interference is a fundamental manifestation of the superposition principle with numerous applications. Although in conventional optics, interference occurs between waves undergoing different phase advances during propagation, we show that the vectorial structure of the near field of an emitter is essential for controlling its radiation as it interferes with itself on interaction with a mediating object. We demonstrate that the near-field interference of a circularly polarized dipole results in the unidirectional excitation of guided electromagnetic modes in the near field, with no preferred far-field radiation direction. By mimicking the dipole with a single illuminated slit in a gold film, we measured unidirectional surface-plasmon excitation in a spatially symmetric structure. The surface wave direction is switchable with the polarization.

KW - BROAD-BAND

KW - LENSES

KW - PROPAGATION

KW - PHASE

KW - SURFACE-PLASMONS

KW - ANTENNAS

KW - RADIATION

U2 - 10.1126/science.1233739

DO - 10.1126/science.1233739

M3 - Article

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SP - 328

EP - 330

JO - Science

JF - Science

IS - 6130

ER -

Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes

Abstract

Keywords

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