Eui-Young Song scite author profile

A novel method to launch finite power Airy beams based on a metasurface is presented. By tailoring the amplitude and phase of the transmitted fields from a metallic C‐aperture array, launching Airy beams is achieved in free space. The amplitude and phase of the Airy beam profile can be mapped and tailored by tuning only the tilt angles of the aperture. This structure has multifrequency characteristics, which facilitates Airy beam steering because the trajectory of Airy beams is dependent on the wavelength. In addition, the design method can generate Airy beams which have a very compact main lobe (≈2 µm). Computational and experimental results show that proposed metasurface can overcome some limitations of the traditional methods to generate Airy beams. The results can be used for potential applications in integrated optics, beam shaping, biosensing, and next‐generation holography.

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A double‐lined metasurface for plasmonic complex‐field generation

Song

Lee

Hong

et al. 2016

Laser & Photonics Reviews

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Since the surface plasmon polariton (SPP) has received a great deal of attention because of its capability of guiding light within the subwavelength scale, finding methods for arbitrary SPP field generation has been a significant issue in the area of integrated optics. To achieve such a goal, it will be necessary to generate a plasmonic complex field. In this paper, we propose a novel method for generating a plasmonic complex field propagating with arbitrary curvatures by using double-lined distributed nanoslits. As a unit cell, two facing nanoslits are used for tuning both the amplitude and the phase of excited SPPs as a function of their tilted angles. For verification of the proposed design rule, the authors experimentally demonstrate some plasmonic caustic curves and Airy plasmons.

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Active directional beaming by mechanical actuation of double-sided plasmonic surface gratings

et al. 2013

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A novel mechanism for active directional beaming by mechanical actuation of double-sided plasmonic surface gratings is proposed. It is shown that the asymmetric mechanical actuation of optimally designed plasmonic surface gratings surrounding a subwavelength metal slit can produce a steerable off-axis beaming effect. The controllability of the beam direction provides an opportunity to develop novel active plasmonic devices and systems.

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Double bi-material cantilever structures for complex surface plasmon modulation

Song¹,

Cho²,

Kim³

et al. 2015

Opt. Express

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A complex modulation structure of surface plasmon polaritons using double bi-material cantilevers is proposed. It is shown with numerical analysis that the thermally controlled mechanical actuation of double bi-material cantilevers can modulate the amplitude and phase of surface plasmon polaritons across a full complex modulation range independently and simultaneously. The complex modulation structures designed for visible wavelengths are presented and their multi-wavelength integration is discussed.

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Numerical study on rotational force in a bi-layered gammadion chiral metamaterial

Lee

Song

Lee

et al. 2015

J. Phys.: Conf. Ser.

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Eui-Young Song

Compact Generation of Airy Beams with C‐Aperture Metasurface

A double‐lined metasurface for plasmonic complex‐field generation

Active directional beaming by mechanical actuation of double-sided plasmonic surface gratings

Double bi-material cantilever structures for complex surface plasmon modulation

Numerical study on rotational force in a bi-layered gammadion chiral metamaterial

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