Multi-Band Polarization Insensitive Ultra-Thin THz Metamaterial Absorber for Imaging and EMI Shielding Applications
Main Article Content
Abstract
this article, a multi-band polarization-insensitive metamaterial absorber is designed for THz imaging and EMI shielding. A unique oval-shaped structure with three circular ring-shaped resonators is proposed with a unit cell dimension of36×36×19.6μm3. The absorbance of the proposed multiband MMA is 98.57%, 90%and 99.85% at 5.58, 7.98-8.84, 11.45THz frequency respectively. Return loss is nearly the same for the changing incident and polarization angle. Therefore, this metamaterial absorber with a wide range of polarization insensitivity is found and it is also suitable for quantum RADAR Imaging, energy harvesting, and optoelectronic devices.
Downloads
Article Details
Authors who publish with this journal agree to the following terms:
- Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
- Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
- Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).
References
Hui Feng Ma, Sanming Hu, Yun Gui Ma, Yun Lai, and Karu Esselle, "The Applications of Metamaterials", International Journal of Antennas and Propagation, vol. 20, pp.1-2, (2015).
Mohammed R Hashemi, Semih Cakmakyapan, and Mona Jarrahi, "Reconfigurable metamaterials for terahertz wave manipulation", Reports on Progress in Physics vol. 80, pp. 1-42 (2017).
Y. Khanna and Y. K. Awasthi, "Wideband Ultra-thin Metamaterial Absorber for Ku & K- Band Applications," 2020 7th International Conference on Signal Processing and Integrated Networks (SPIN), Noida, India, 2020.
Saxena, Gaurav, Y. K. Awasthi, and Priyanka Jain. "Design of Metasurface Absorber for Low RCS and High Isolation MIMO Antenna for Radio Location & Navigation." AEU-International Journal of Electronics and Communications, vol. 20, pp. 31171-2(2021).
R. Xing, C. Dong, B. Zhu, Y. Gao, and S. Jian, "Numerical Analysis on Ribbon-ArraySheet Coupled Graphene Terahertz Absorber," in IEEE Photonics Technology Letters, vol. 28, pp. 2207-2210, 2016.
Y. Wang et al., "Properties and Sensing Performance of All-Dielectric Metasurface THz Absorbers," in IEEE Transactions on Terahertz Science and Technology, vol. 10, pp. 599-605, 2020.
R. Mishra, R. Panwar and D. Singh, "Equivalent Circuit Model for the Design of Frequency-Selective, Terahertz-Band, Graphene-Based Metamaterial Absorbers," in IEEE Magnetics Letters, vol. 9, pp. 1-5, 2018.
Y. Wang et al., "Properties and Sensing Performance of All-Dielectric Metasurface THz Absorbers," in IEEE Transactions on Terahertz Science and Technology, vol. 10, pp. 599-605, 2020.
https://doi.org/10.1109/TTHZ.2020.3010164" class="btn btn-info btn-xs" role="button" btn-sm>View Article
M. Qu, T. Chang, G. Guo, and S. Li, "Design of Graphene-Based Dual-Polarized Switchable Rasorber/Absorber at Terahertz," IEEE Access, vol. 8, pp. 127220- 127225, 2020.
M. Biabanifard, A. Arsanjani, M. S. Abrishamian, and D. Abbott, "Tunable Terahertz Graphene-Based Absorber Design Method Based on a Circuit Model Approach," IEEE Access, vol. 8, pp. 70343-70354, 2020.
Jin Huang, Jining Li, Yue Yang, Jie Li, Jiahui Li, Yating Zhang, and Jianquan Yao, "Broadband terahertz absorber with a flexible, reconfigurable performance based on hybrid-patterned vanadium dioxide metasurfaces," Optics Express vol. 28, pp. 17832-17840, 2020.
A. Chen and Z. Song, "Tunable Isotropic Absorber With Phase Change Material VO2," in IEEE Transactions on Nanotechnology, vol. 19, pp. 197-200, 2020.
He, Y., Wu, Q. & Yan, S. "Multi-Band Terahertz Absorber at 0.1-1 THz Frequency Based on Ultra-Thin Metamaterial", Plasmonics, vol. 14, pp. 1303-1310, 2019.
Sabah, C., Mulla, B., Altan, H. et al. "Cross-like terahertz metamaterial absorber for sensing applications", Pramana - J Phys vol. 91, pp.17-23, 2018.
Tianhua Meng, Dan Hu, Qiaofen Zhu, "Design of a five-band terahertz perfect metamaterial absorber using two resonators", Optics Communications, vol. 415, pp. 151-155, 2018.
Yang Liu, Sheng-Qiu Xu, Ming Liu, Xin-Guang Hu, Yong-Fa Duan, Lin Yi, "Tunable multiband terahertz absorber based on a one-dimensional heterostructure containing semiconductor", Optik, vol. 170, pp. 203-209, 2018.
Saxena, Gaurav, Y. K. Awasthi, and Priyanka Jain. "High Isolation and High Gain Super-Wideband (0.33-10 THz) MIMO Antenna for THz Applications." Optik, vol. 223, pp. 165335, 2020.
Khanna, Y., Awasthi, Y.K. Ultra-Thin Wideband Polarization-Insensitive Metasurface Absorber for Aviation Technology. Journal of Electronic Materials, vol. 49, pp. 6410-6416, 2020.
Y. Dong, P. Liu, D. Yu, G. Li, and L. Yang, "A Tunable Ultra-broadband Ultrathin Terahertz Absorber Using Graphene Stacks," in IEEE Antennas and Wireless Propagation Letters, vol. 16, pp. 1115-1118, 2017.
W. Pan, X. Yu, J. Zhang, and W. Zeng, "A Novel Design of Broadband Terahertz Metamaterial Absorber Based on Nested Circle Rings," in IEEE Photonics Technology Letters, vol. 28, pp. 2335-2338, 2016.
Saxena, Gaurav, R. L. Yadava, Priyanka Jain, and Y. K. Awasthi. "Triple Band Polarization Insensitive Ultra-Thin Metamaterial Absorber for EMC and RCS Reduction in X-Band Applications." In IEEE, 2020 7th International Conference on Signal Processing and Integrated Networks (SPIN), pp. 772-775. 2020.
Khan, B., Kamal, B., Ullah, S. et al. Design and experimental analysis of dual-band polarization converting metasurface for microwave applications. Scientific Reports vol. 10, pp.15393, 2020.
Barzegar-Parizi, Saeedeh, Amir Ebrahimi, and Kamran Ghorbani. "High-Q dual-band graphene absorbers by selective excitation of graphene plasmon polaritons: Circuit model analysis." Optics & Laser Technology 132 (2020): 106483.
Yan, Fei, Li Li, Ruoxing Wang, Hao Tian, Jianlong Liu, Jianqiang Liu, Fengjun Tian, and Jianzhong Zhang. "Ultrasensitive tunable terahertz sensor with graphene plasmonic grating." Journal of Lightwave Technology vol. 37, pp. 1103-1112, 2019.
Biabanifard, Mohammad, and Mohammad Sadegh Abrishamian. "Multi-band circuit model of tunable THz absorber based on graphene sheet and ribbons." AEU-International Journal of Electronics and Communications vol. 95 pp. 256-263, 2018.
Barzegar-Parizi, Saeedeh, and Amir Ebrahimi. "Ultrathin, polarization-insensitive multi-band absorbers based on graphene metasurface with THz sensing application." JOSA B vol. 37, pp. 2372-2381,2020.
Wu, Jun. "Tunable multi-band terahertz absorber based on graphene nano-ribbon metamaterial." Physics Letters A vol. 383, pp. 2589-2593, 2019.
Zamzam, Pouria, Pejman Rezaei, and Seyed Amin Khatami. "Quad-band polarization-insensitive metamaterial perfect absorber based on bilayer graphene metasurface." Physica E: Low-dimensional Systems and Nanostructures vol. 128, pp. 114621, 2021.
Cheng, Y., Zou, Y., Luo, H. et al. Compact Ultra-Thin Seven-Band Microwave Metamaterial Absorber Based on a Single Resonator Structure. Journal of Elec Materi vol. 48, pp. s3939-3946, 2019.
Wang, Yingying, Zeqiang Chen, Danyang Xu, Zao Yi, Xifang Chen, Jian Chen, Yongjian Tang, Pinghui Wu, Gongfa Li, and Yougen Yi. "Triple-band perfect metamaterial absorber with good operating angle polarization tolerance based on split ring arrays." Results in Physics vol. 16, pp. 102951, 2020.
Amiri, Majid, Farzad Tofigh, Negin Shariati, Justin Lipman, and Mehran Abolhasan. "Wide-angle metamaterial absorber with highly insensitive absorption for TE and TM modes." Scientific reports vol. 10, pp. 1-13, 2020.
Ghods, Mohammad Mahdi, and Pejman Rezaei. "Ultra-wideband microwave absorber based on uncharged graphene layers." Journal of Electromagnetic Waves and Applications vol. 32, pp. 1950-1960, 2018.
Yi, Zao, Hang Lin, Gao Niu, Xifang Chen, Zigang Zhou, Xin Ye, Tao Duan, Yong Yi, Yongjian Tang, and Yougen Yi. "Graphene-based tunable triple-band plasmonic perfect metamaterial absorber with good angle-polarization-tolerance." Results in Physics vol. 13, pp. 102149, 2019.
Yongzhi Chenga, Hui Luo, and Fu Chen, "Broadband metamaterial microwave absorber based on asymmetric sectional resonator structures", Journal of Applied Physics vol. 127, pp. 214902, 2020.
Fen Zhang, Chao Jiang, Qiang Wang, Zixiang Zhao, Yan Wang, Zuojuan Du, Chunqi Wang and Xiaozhong Huang, "A multi-band closed-cell metamaterial absorber based on a low-permittivity all-dielectric structure", Applied Physics Express, vol. 13, pp. 084001, 2020.
Hongsen Zhang, Yongzhi Cheng, Fu Chen, "Quad-band plasmonic perfect absorber using all-metal nanostructure metasurface for refractive index sensing", Optik, vol. 229 pp. 166300, 2021.
Limie Qi and Chang Liu, "Terahertz wide angle metamaterial absorber fabricated by printed circuit bosrd technique", Journal of Applied Physics, vol. 124, pp. 153101, 2018.
Ben-Xin Wang, Yuanhao He, Pengcheng Lou and Wenhui Xing, "Design of a dual-band terahertz metamaterial absorber using two identical square patches for sensing application" Nanoscale Advances, vol. 2, pp 763-769, 2020.
Gaurav Varshney, "Reconfigurable Graphene Antenna for THz Applications: A Mode Conversion Approach" Nanotechnology, vol. 31, pp. 135208, 2020.