U-joint Double split O (UDO) shaped with split square metasurface absorber for X and ku band application

Ahasanul Hoque, Mohammad Tariqul Islam, Ali F. Almutairi, Mohammad Rashed Iqbal Faruque, Mandeep Jit Singh, Md Shabiul Islam

Research output: Contribution to journalArticle

Abstract

This paper reports, a metasurface absorber which is U-joint loaded Double Split O shaped with a square split patch at the center and Double Negative (DNG) property. The proposed absorber shows significant absorption for potential applications like radar signal absorption and satellite communication, remote sensing, RF shielding. The vertical U joint and split O mutually creates substantial resonance and expedite by the center square patch, to cover two consecutive X and Ku band absorption peaks at 11.56 GHz with 82.31%, 12.27 GHz with 98.91% and 14.19 GHz with 97.79%. Besides, balanced geometrical shape with insensitivity polarization for TE and TM mode wave propagation enhances the robustness and tunability of the structure. The absorption mechanism analyzed and discussed with the Finite Integration Technique (FIT). Characterization of S-parameter executed with an established method for dielectric property extraction and finally compared the proposed absorber with existing literature.

Original languageEnglish
Article number102757
JournalResults in Physics
Volume15
DOIs
Publication statusPublished - Dec 2019

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superhigh frequencies
absorbers
satellite communication
shielding
radar
dielectric properties
remote sensing
wave propagation
communication
absorption spectra
sensitivity
polarization

Keywords

  • Absorber
  • DNG
  • Ku band
  • Metamaterial
  • Wideband

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

U-joint Double split O (UDO) shaped with split square metasurface absorber for X and ku band application. / Hoque, Ahasanul; Islam, Mohammad Tariqul; Almutairi, Ali F.; Faruque, Mohammad Rashed Iqbal; Singh, Mandeep Jit; Islam, Md Shabiul.

In: Results in Physics, Vol. 15, 102757, 12.2019.

Research output: Contribution to journalArticle

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AU - Faruque, Mohammad Rashed Iqbal

AU - Singh, Mandeep Jit

AU - Islam, Md Shabiul

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N2 - This paper reports, a metasurface absorber which is U-joint loaded Double Split O shaped with a square split patch at the center and Double Negative (DNG) property. The proposed absorber shows significant absorption for potential applications like radar signal absorption and satellite communication, remote sensing, RF shielding. The vertical U joint and split O mutually creates substantial resonance and expedite by the center square patch, to cover two consecutive X and Ku band absorption peaks at 11.56 GHz with 82.31%, 12.27 GHz with 98.91% and 14.19 GHz with 97.79%. Besides, balanced geometrical shape with insensitivity polarization for TE and TM mode wave propagation enhances the robustness and tunability of the structure. The absorption mechanism analyzed and discussed with the Finite Integration Technique (FIT). Characterization of S-parameter executed with an established method for dielectric property extraction and finally compared the proposed absorber with existing literature.

AB - This paper reports, a metasurface absorber which is U-joint loaded Double Split O shaped with a square split patch at the center and Double Negative (DNG) property. The proposed absorber shows significant absorption for potential applications like radar signal absorption and satellite communication, remote sensing, RF shielding. The vertical U joint and split O mutually creates substantial resonance and expedite by the center square patch, to cover two consecutive X and Ku band absorption peaks at 11.56 GHz with 82.31%, 12.27 GHz with 98.91% and 14.19 GHz with 97.79%. Besides, balanced geometrical shape with insensitivity polarization for TE and TM mode wave propagation enhances the robustness and tunability of the structure. The absorption mechanism analyzed and discussed with the Finite Integration Technique (FIT). Characterization of S-parameter executed with an established method for dielectric property extraction and finally compared the proposed absorber with existing literature.

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