Chao Tang, Qingshan Niu, Yuanhao He, Huaxin Zhu,Ben-Xin Wang*, “Tunable triple-band plasmonically induced transparency effects based on double A-shaped metamaterial resonators,” Plasmonics, accepted and in press.
Ben-Xin Wang*, Chao Tang, Qingshan Niu, Yuanhao He, and Tao Chen, “Design of narrow discrete distances of dual/triple-band terahertz metamaterial absorbers,” Nanoscale Research Letters, 16, 64 (2019).
Qingshan Niu, Chao Tang, Yuanhao He, Lifa Hu, andBen-Xin Wang*, “Design of multiple-band filtering resonance devices at narrow frequency range using terahertz metamaterial resonator,” Optics Communications, 435, 124368 (2019).
Ben-Xin Wang*, Chao Tang, Qingshan Niu, Yuanhao He, Huaxin Zhu, and Wei-Qing Huang, “Broadband terahertz metamaterial absorber enabled by using high-loss dielectric materials,” Materials Research Express, 6, 105804 (2019).
Ben-Xin Wang*, Chao Tang, Qingshan Niu, Yuanhao He, and Huaxin Zhu, “Broadband perfect absorption enabled by using terahertz metamaterial resonator,” Superlattices and Microstructures, 135, 106240 (2019).
Chao Tang, Qingshan Niu, Yuanhao He, Xiangyang Zhang, andBen-Xin Wang*, “Bifunctional resonance effects of classical electromagnetically induced transparency and Fano response using a terahertz metamaterial resonator,” Applied Optics, 58, 4414 (2019).
Chao Tang, Qingshan Niu, Yuanhao He, Xiangyang Zhang, andBen-Xin Wang*, “High-Q terahertz Fano-like resonance effect based on robust metamaterial resonator,” Modern Physics Letters B, 33, 1950248 (2019)
Tao Chen, Runyu Zhao, andBen-Xin Wang*, “Theoretical investigation of a simple design of triple-band terahertz metamaterial absorber for high-Q sensing,” Applied Science, 9, 1410 (2019).
Qingshan Niu, Chao Tang, Yuanhao He, Wei-Qing Huang,Ben-Xin Wang*, and Lifa Hu, “Performance comparison of the electromagnetic induction transparency effects for two U-shaped resonators having different opening directions,” Heliyon, 5, e01442 (2019).
Chao Tang, Qingshan Niu,Ben-Xin Wang*, and Wei-Qing Huang, “Design of dual-band plasmon-induced transparent effect based on composite structure of closed-ring and square patch,” Plasmonics, 14, 533 (2019).
Ben-Xin Wang*, Huaxin Zhu, and Wei-Qing Huang, “Influence of the imaginary part of the dielectric layer on the bandwidth of metamaterial absorber and the design of broadband absorption,” Materials Research Express, 5, 125803 (2018).
Qin Xie, Guang-Xi Dong,Ben-Xin Wang*, and Wei-Qing Huang, “High-Q Fano resonance in terahertz frequency based on an asymmetric metamaterial resonator,” Nanoscale Research Letters, 13, 294 (2018).
Ben-Xin Wang*, Qin Xie, Guangxi Dong, and Wei-Qing Huang, “Broadband terahertz perfect light absorber based on the modes of fundamental response and surface lattice resonance,” OSA Continuum, 1, 213 (2018).
Guangxi Dong, Qin Xie, Qi Zhang,Ben-Xin Wang*, and Wei-Qing Huang, “Plasmon-induced transparency based on triple arc-ring resonators,” Materials, 11, 964 (2018).
Ben-Xin Wang*, Qin Xie, Guangxi Dong, and Wei-Qing Huang, “Simplified design for broadband and polarization-insensitive terahertz metamaterial absorber,” IEEE Photonics Technology Letters, 30, 1115 (2018).
Qin Xie, Guangxi Dong,Ben-Xin Wang*, and Wei-Qing Huang, “Design of quad-band terahertz metamaterial absorber using a perforated rectangular resonator for sensing application,” Nanoscale Research Letters, 13, 137 (2018).
Ben-Xin Wang*, Qin Xie, Guangxi Dong, and Wei-Qing Huang, “Design of triple-band polarization controlled terahertz metamaterial absorber,” Superlattices and Microstructures, 114, 225 (2018).
Ben-Xin Wang*, Qin Xie, Guangxi Dong, and Wei-Qing Huang, “Multiple-band light absorber via combining the fundamental mode and multiple splitting modes of the 3-order response of metamaterial resonator,” Journal of Physics D, 45, 135307 (2018).
Ben-Xin Wang*, and Gui-Zhen Wang, “New type design of the triple-band and five-band metamaterial absorbers at terahertz frequency,” Plasmonics, 13, 123 (2018).
Ben-Xin Wang*, Gui-Zhen Wang, and Wei-Qing Huang, “Single metamaterial resonator having five-band terahertz near-perfect absorption,” IEEE Photonics Technology Letters, 29, 1888 (2017).
Ben-Xin Wang*, Wei-Qing Huang, and Ling-Ling Wang, “Ultra-narrow terahertz perfect light absorber based on surface lattice resonance of a sandwich resonator for sensing applications,” RSC Advances, 7, 42956 (2017).
Ben-Xin Wang*, Qin Xie, Guangxi Dong, and Huaxin Zhu, “Broadband terahertz metamaterial absorber based on coplanar multi-strip resonators,” Journal of Materials Science, 28, 17215 (2017).
Ben-Xin Wang*, and Gui-Zhen Wang, “Novel quad-band terahertz metamaterial absorber based on single pattern U-shaped resonator,” Applied Physics Express, 10, 034301 (2017).
Ben-Xin Wang*, and Gui-Zhen Wang, “Quad-band terahertz absorber based on a simple design of metamaterial resonator,” IEEE Photonics Journal, 8, 5502408 (2017).
Ben-Xin Wang*, “Single-patterned metamaterial structure enabling multi-band perfect absorption,” Plasmonics, 12, 95 (2017).
Ben-Xin Wang*, “Quad-band terahertz metamaterial absorber based on the combining of the dipole and quadrupole resonances of two SRRs,” IEEE Journal of Selected Topics in Quantum Electronics, 23, 4700107 (2017).
Ben-Xin Wang*, Gui-Zhen Wang, Tian Sang and Ling-Ling Wang, Six-band terahertz metamaterial absorber based on the combination of multiple-order responses of metallic patches in a dual-layer stacked resonance structure, Scientific Reports, 7, 41373 (2017).
Ben-Xin Wang*, Gui-Zhen Wang, and Tian Sang, “Simple design of novel triple-band terahertz metamaterial absorber for sensing application,” Journal of Physics D, 49, 165307 (2016).
Ben-Xin Wang*, Gui-Zhen Wang, and Ling-Ling Wang, “Design of a novel dual-band terahertz metamaterial absorber,” Plasmonics, 11, 523 (2016).
Ben-Xin Wang*, and Gui-Zhen Wang, “Two compact SRR resonators enabling five-band perfect absorption,” Materials Letters, 180, 317 (2016).
Ben-Xin Wang*, Xiang Zhai, Gui-Zhen Wang, Wei-Qing Huang, and Ling-Ling Wang, “Broadband coplane metamaterial filter based on two nested split-ring -resonators,” Frontiers of Optoelectronics, 9, 565 (2016).
Gui-Zhen Wang, andBen-Xin Wang*, “Five-band terahertz metamaterial absorber based on a four-gap comb resonator,” Journal of Lightwave Technology, 33, 5151 (2015).
Ben-Xin Wang*, Gui-Zhen Wang, Xiang Zhai, and Ling-ling Wang, “Polarization tunable terahertz metamaterial absorber,” IEEE Photonics Journal, 7, 4600507 (2015).