Citation

Hossain, Amran and Khan, Mohammad Tariqul Islam and Misran, Norbahiah and Islam, Md. Shabiul (2021) A mutual coupled spider net-shaped triple split ring resonator based epsilon-negative metamaterials with high effective medium ratio for quad-band microwave applications. Results in Physics, 22. pp. 1-26. ISSN 2211-3797

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Abstract

This paper discusses a spider net-shaped triple split ring resonator (SNTSRR) based epsilon-negative metamaterial with a high effective medium ratio. The proposed SNTSRR unit cell structure is a modification of the general split ring resonator and consists of three octagonal-shaped split ring resonators (SRR). Two metal strips attach the split ring resonators to increase the electrical length of the proposed SNTSRR unit cell. The optimized size of the proposed SNTSRR unit cell, using Rogers RO4350B substrate material, is 10 × 10 × 1.524 mm3. The frequency ranges of the transmission of microwave applications are: 2.83–2.89 GHz for S-band, 4.24–4.31 GHz and 6.74–7.06 GHz for C-band, 9.17–9.26 GHz and 10.98–11.16 GHz for X-band, and 12.62–13.00 GHz for Ku-band. The unit cell achieves six resonant frequencies of 2.86 GHz, 4.28 GHz, 6.94 GHz, 9.22 GHz, 11.10 GHz, and 12.89 GHz for S-, C-, X-, and Ku-bands, respectively. A comprehensive investigation of effective medium parameters, scattering parameters, mutual coupling effect, and the unit cell properties with electromagnetic propagation were accomplished in this paper. The proposed SNTSRR unit cell revelations epsilon negative (ENG) properties in the frequency ranges of 2.87–3.05 GHz, 4.27–4.45 GHz, 6.94–7.39 GHz, 9.24–9.34 GHz, 11.12–11.26 GHz, and 12.90–13.24 GHz. For experimental validation, we fabricated the proposed SNTSRR unit cell along with its array construction. After that, we measured the scattering parameters, which showed better agreement between the simulated and the measured outcomes. Furthermore, the coupling effects between the 1 × 2 and the 2 × 2 array structures with different distances were analyzed, and they showed better performance with low impact. Additionally, the calculated effective medium ratio (EMR) is 10.48, which infers compactness and efficacy of the unit cell. It should be noted that the compact size, effective medium parameters, S-parameters, and high EMR make the proposed SNTSRR metamaterial appropriate for quad-band microwave applications. Finally, the proposed SNTSRR unit cell has been employed as an application in 3D cross-fed wideband antenna to enhance the bandwidth and gain of the antenna, which is appropriate for microwave head imaging applications.

Item Type:	Article
Uncontrolled Keywords:	Metamaterials
Subjects:	T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7800-8360 Electronics > TK7871 Electronics--Materials
Divisions:	Faculty of Engineering (FOE)
Depositing User:	Ms Nurul Iqtiani Ahmad
Date Deposited:	21 Apr 2021 17:29
Last Modified:	21 Apr 2021 17:31
URII:	http://shdl.mmu.edu.my/id/eprint/8614

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