Multiband terahertz metamaterial absorber

Chao Gu; Shao Bo Qu; Zhi Bin Pei; Zhuo Xu; Jia Liu; Wei Gu

doi:10.1088/1674-1056/20/1/017801

Multiband terahertz metamaterial absorber

Chao Gu
, Shao Bo Qu
, Zhi Bin Pei
, Zhuo Xu
, Jia Liu
, Wei Gu

Faculty of Electronic and Information Engineering

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

43 Scopus citations

Abstract

This paper reports the design of a multiband metamaterial (MM) absorber in the terahertz region. Theoretical and simulated results show that the absorber has four distinct and strong absorption points at 1.69, 2.76, 3.41 and 5.06 THz, which are consistent with 'fingerprints' of some explosive materials. The retrieved material parameters show that the impedance of MM could be tuned to match approximately the impedance of the free space to minimise the reflectance at absorption frequencies and large power loss exists at absorption frequencies. The distribution of the power loss indicates that the absorber is an excellent electromagnetic wave collector: the wave is first trapped and reinforced in certain specific locations and then consumed. This multiband absorber has applications in the detection of explosives and materials characterisation.

Original language	English
Article number	017801
Journal	Chinese Physics B
Volume	20
Issue number	1
DOIs	https://doi.org/10.1088/1674-1056/20/1/017801
State	Published - Jan 2011

Keywords

Multiband
electromagnetic resonance
metamaterial absorber
terahertz

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10.1088/1674-1056/20/1/017801

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title = "Multiband terahertz metamaterial absorber",

abstract = "This paper reports the design of a multiband metamaterial (MM) absorber in the terahertz region. Theoretical and simulated results show that the absorber has four distinct and strong absorption points at 1.69, 2.76, 3.41 and 5.06 THz, which are consistent with 'fingerprints' of some explosive materials. The retrieved material parameters show that the impedance of MM could be tuned to match approximately the impedance of the free space to minimise the reflectance at absorption frequencies and large power loss exists at absorption frequencies. The distribution of the power loss indicates that the absorber is an excellent electromagnetic wave collector: the wave is first trapped and reinforced in certain specific locations and then consumed. This multiband absorber has applications in the detection of explosives and materials characterisation.",

keywords = "Multiband, electromagnetic resonance, metamaterial absorber, terahertz",

author = "Chao Gu and Qu, \{Shao Bo\} and Pei, \{Zhi Bin\} and Zhuo Xu and Jia Liu and Wei Gu",

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doi = "10.1088/1674-1056/20/1/017801",

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T1 - Multiband terahertz metamaterial absorber

AU - Gu, Chao

AU - Qu, Shao Bo

AU - Pei, Zhi Bin

AU - Xu, Zhuo

AU - Liu, Jia

AU - Gu, Wei

PY - 2011/1

Y1 - 2011/1

N2 - This paper reports the design of a multiband metamaterial (MM) absorber in the terahertz region. Theoretical and simulated results show that the absorber has four distinct and strong absorption points at 1.69, 2.76, 3.41 and 5.06 THz, which are consistent with 'fingerprints' of some explosive materials. The retrieved material parameters show that the impedance of MM could be tuned to match approximately the impedance of the free space to minimise the reflectance at absorption frequencies and large power loss exists at absorption frequencies. The distribution of the power loss indicates that the absorber is an excellent electromagnetic wave collector: the wave is first trapped and reinforced in certain specific locations and then consumed. This multiband absorber has applications in the detection of explosives and materials characterisation.

AB - This paper reports the design of a multiband metamaterial (MM) absorber in the terahertz region. Theoretical and simulated results show that the absorber has four distinct and strong absorption points at 1.69, 2.76, 3.41 and 5.06 THz, which are consistent with 'fingerprints' of some explosive materials. The retrieved material parameters show that the impedance of MM could be tuned to match approximately the impedance of the free space to minimise the reflectance at absorption frequencies and large power loss exists at absorption frequencies. The distribution of the power loss indicates that the absorber is an excellent electromagnetic wave collector: the wave is first trapped and reinforced in certain specific locations and then consumed. This multiband absorber has applications in the detection of explosives and materials characterisation.

KW - Multiband

KW - electromagnetic resonance

KW - metamaterial absorber

KW - terahertz

UR - https://www.scopus.com/pages/publications/79952364816

U2 - 10.1088/1674-1056/20/1/017801

DO - 10.1088/1674-1056/20/1/017801

M3 - 文章

AN - SCOPUS:79952364816

SN - 1674-1056

VL - 20

JO - Chinese Physics B

JF - Chinese Physics B

IS - 1

M1 - 017801

ER -

Multiband terahertz metamaterial absorber

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Keywords

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