Anti-Hermitian plasmon coupling of an array of gold thin-film antennas for controlling light at the nanoscale

Shuang Zhang; Ziliang Ye; Yuang Wang; Yongshik Park; Guy Bartal; Michael Mrejen; Xiaobo Yin; Xiang Zhang

doi:10.1103/PhysRevLett.109.193902

Anti-Hermitian plasmon coupling of an array of gold thin-film antennas for controlling light at the nanoscale

Shuang Zhang, Ziliang Ye, Yuang Wang, Yongshik Park, Guy Bartal, Michael Mrejen, Xiaobo Yin, Xiang Zhang

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

Abstract

Open quantum systems consisting of coupled bound and continuum states have been studied in a variety of physical systems, particularly within the scope of nuclear, atomic, and molecular physics. In the open systems, the effects of the continuum decay channels are accounted for by indirect non-Hermitian couplings among the quasibound states. Here we explore anti-Hermitian coupling in a plasmonic system for spatially manipulating light on the nanoscale. We show that by utilizing the anti-Hermitian coupling, plasmonic antennas closely packed within only λ/15 separations can be individually excited from the far field, which are otherwise indistinguishable from each other. This opens a new venue for the nanoscale lightwave control, wavelength multiplexing, and spectrum splitting.

Original language	English
Article number	193902
Journal	Physical Review Letters
Volume	109
Issue number	19
DOIs	https://doi.org/10.1103/PhysRevLett.109.193902
State	Published - 9 Nov 2012
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.109.193902

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abstract = "Open quantum systems consisting of coupled bound and continuum states have been studied in a variety of physical systems, particularly within the scope of nuclear, atomic, and molecular physics. In the open systems, the effects of the continuum decay channels are accounted for by indirect non-Hermitian couplings among the quasibound states. Here we explore anti-Hermitian coupling in a plasmonic system for spatially manipulating light on the nanoscale. We show that by utilizing the anti-Hermitian coupling, plasmonic antennas closely packed within only λ/15 separations can be individually excited from the far field, which are otherwise indistinguishable from each other. This opens a new venue for the nanoscale lightwave control, wavelength multiplexing, and spectrum splitting.",

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AU - Zhang, Shuang

AU - Ye, Ziliang

AU - Wang, Yuang

AU - Park, Yongshik

AU - Bartal, Guy

AU - Mrejen, Michael

AU - Yin, Xiaobo

AU - Zhang, Xiang

PY - 2012/11/9

Y1 - 2012/11/9

N2 - Open quantum systems consisting of coupled bound and continuum states have been studied in a variety of physical systems, particularly within the scope of nuclear, atomic, and molecular physics. In the open systems, the effects of the continuum decay channels are accounted for by indirect non-Hermitian couplings among the quasibound states. Here we explore anti-Hermitian coupling in a plasmonic system for spatially manipulating light on the nanoscale. We show that by utilizing the anti-Hermitian coupling, plasmonic antennas closely packed within only λ/15 separations can be individually excited from the far field, which are otherwise indistinguishable from each other. This opens a new venue for the nanoscale lightwave control, wavelength multiplexing, and spectrum splitting.

AB - Open quantum systems consisting of coupled bound and continuum states have been studied in a variety of physical systems, particularly within the scope of nuclear, atomic, and molecular physics. In the open systems, the effects of the continuum decay channels are accounted for by indirect non-Hermitian couplings among the quasibound states. Here we explore anti-Hermitian coupling in a plasmonic system for spatially manipulating light on the nanoscale. We show that by utilizing the anti-Hermitian coupling, plasmonic antennas closely packed within only λ/15 separations can be individually excited from the far field, which are otherwise indistinguishable from each other. This opens a new venue for the nanoscale lightwave control, wavelength multiplexing, and spectrum splitting.

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Anti-Hermitian plasmon coupling of an array of gold thin-film antennas for controlling light at the nanoscale

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All Science Journal Classification (ASJC) codes

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