Diffractive Focusing of Waves in Time and in Space

Dror Weisman; Shenhe Fu; Manuel Gonçalves; Lev Shemer; Jianying Zhou; Wolfgang P. Schleich; Ady Arie

doi:10.1103/PhysRevLett.118.154301

Diffractive Focusing of Waves in Time and in Space

Dror Weisman, Shenhe Fu, Manuel Gonçalves, Lev Shemer, Jianying Zhou, Wolfgang P. Schleich, Ady Arie

Tel Aviv University

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

Abstract

We study the general wave phenomenon of diffractive focusing from a single slit for two types of waves and demonstrate several properties of this effect. Whereas in the first situation, the envelope of a surface gravity water wave is modulated in time by a rectangular function, leading to temporal focusing, in the second example, surface plasmon polariton waves are focused in space by a thin metal slit to a transverse width narrower than the slit itself. The observed evolution of the phase carrier of the water waves is measured for the first time and reveals a nearly flat phase as well as an 80% increase in the intensity at the focal point. We then utilize this flat phase with plasmonic beams in the spatial domain, and study the case of two successive slits, creating a tighter focusing of the waves by putting the second slit at the focal point of the first slit.

Original language	English
Article number	154301
Journal	Physical Review Letters
Volume	118
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.118.154301
State	Published - 12 Apr 2017

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.118.154301

Cite this

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title = "Diffractive Focusing of Waves in Time and in Space",

abstract = "We study the general wave phenomenon of diffractive focusing from a single slit for two types of waves and demonstrate several properties of this effect. Whereas in the first situation, the envelope of a surface gravity water wave is modulated in time by a rectangular function, leading to temporal focusing, in the second example, surface plasmon polariton waves are focused in space by a thin metal slit to a transverse width narrower than the slit itself. The observed evolution of the phase carrier of the water waves is measured for the first time and reveals a nearly flat phase as well as an 80% increase in the intensity at the focal point. We then utilize this flat phase with plasmonic beams in the spatial domain, and study the case of two successive slits, creating a tighter focusing of the waves by putting the second slit at the focal point of the first slit.",

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AU - Weisman, Dror

AU - Fu, Shenhe

AU - Gonçalves, Manuel

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AU - Schleich, Wolfgang P.

AU - Arie, Ady

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AB - We study the general wave phenomenon of diffractive focusing from a single slit for two types of waves and demonstrate several properties of this effect. Whereas in the first situation, the envelope of a surface gravity water wave is modulated in time by a rectangular function, leading to temporal focusing, in the second example, surface plasmon polariton waves are focused in space by a thin metal slit to a transverse width narrower than the slit itself. The observed evolution of the phase carrier of the water waves is measured for the first time and reveals a nearly flat phase as well as an 80% increase in the intensity at the focal point. We then utilize this flat phase with plasmonic beams in the spatial domain, and study the case of two successive slits, creating a tighter focusing of the waves by putting the second slit at the focal point of the first slit.

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Diffractive Focusing of Waves in Time and in Space

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