Tailorable Zero‐Phase Delay of Subwavelength Particles toward Miniaturized Wave Manipulation Devices | Zendy

Zhao Qian | Zendy; Xiao Zongqi | Zendy; Zhang Fuli | Zendy; Ma Junming | Zendy; Qiao Ming | Zendy; Meng Yonggang | Zendy; Lan Chuwen | Zendy; Li Bo | Zendy; Zhou Ji | Zendy; Zhang Peng | Zendy; Shen NianHai | Zendy; Koschny Thomas | Zendy; Soukoulis Costas M. | Zendy

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Tailorable Zero‐Phase Delay of Subwavelength Particles toward Miniaturized Wave Manipulation Devices

Author(s) -

Zhao Qian,

Xiao Zongqi,

Zhang Fuli,

Ma Junming,

Qiao Ming,

Meng Yonggang,

Lan Chuwen,

Li Bo,

Zhou Ji,

Zhang Peng,

Shen NianHai,

Koschny Thomas,

Soukoulis Costas M.

Publication year - 2015

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201502298

Subject(s) - miniaturization , materials science , polarization (electrochemistry) , dielectric , terahertz radiation , phase control , optoelectronics , phase (matter) , nanotechnology , optics , physics , chemistry , quantum mechanics

Adjustable zero‐phase delay and equiphase control are demonstrated in single and multilayer dielectric particle arrays with high index and low loss. The polarization‐independent near‐zero permeability is the origin of the wave control near the first Mie magnetic resonance. The proposed design paves the way for subwavelength devices and opens up new avenues for the miniaturization and integration of THz and optical components.

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