We numerically and experimentally proposed a dual-stop-band terahertz filter based on standard microelectronic fabrication method. The stop bands locate at 0.32 THz and 1.02 THz with 3 dB bandwidths of 0.26 THz and 0....We numerically and experimentally proposed a dual-stop-band terahertz filter based on standard microelectronic fabrication method. The stop bands locate at 0.32 THz and 1.02 THz with 3 dB bandwidths of 0.26 THz and 0.55 THz, respectively. The resonance characteristics of the proposed device were discussed with the help of surface current maps and field density maps extracted from computer simulation software to better understand the working principle of the proposed device. On top of that, a total of seven devices with different dimensions were fabricated to fully discuss the dimension effects on the resonant frequency shift and bandwidth changes. This fabrication process is applicable for related integrated metamaterial devices and provides essential experiment evidences for effective ways of manipulating the transmission spectrum of the proposed filter.展开更多
提出了一种具有双频特性的小型化带阻频率选择表面(Bandstop Frequency Selective Surface,BS-FSS)结构,通过调节所提出单元的结构参数可以实现对BS-FSS谐振频率的独立控制,在此基础上,设计了一款工作在3.84GHZ和6.67GHz的BS-FSS。仿真...提出了一种具有双频特性的小型化带阻频率选择表面(Bandstop Frequency Selective Surface,BS-FSS)结构,通过调节所提出单元的结构参数可以实现对BS-FSS谐振频率的独立控制,在此基础上,设计了一款工作在3.84GHZ和6.67GHz的BS-FSS。仿真结果表明:所设计的BS-FSS的相对带宽分别为57.8%和12.9%,并且在工作频段内,对TE波和TM波均具有较好的极化、角度稳定度。此外,在相同介质条件下,设计的BS-FSS单元物理尺寸为7 mm×7mm,相比于传统的FSS单元,整体尺寸减小了56.9%,小型化优势显著。展开更多
Photonic crystal heterostructures containing two materials and/or two lattice constants are synthesized using the colloids of polystyrene and polymethyl methacrylate by a self-assembling technique. These direct hetero...Photonic crystal heterostructures containing two materials and/or two lattice constants are synthesized using the colloids of polystyrene and polymethyl methacrylate by a self-assembling technique. These direct heterostructures with double stop band are infiltrated with zinc oxide by sol-gel method, followed by the removal of the original polymer template by a wet-etching process to result in inverse heterostructures made of zinc oxide. A red shift in the wavelength of stop bands is observed when the crystal is infiltrated with zinc oxide and a blue shift after inversion, in concurrence with the changes in the effective index of the structure. The stop band is also calculated to extract the number of layers and the extinction co-efficient contributing to the heterostructure. This structure made by a room-temperature low-cost technique produces a sparsely-filled zinc oxide crystal with a single refractive index but containing two different periodicities in a layered arrangement that can be used as a lab-on-a-chip for dual- or multi-wavelength sensing applications.展开更多
A kind of dual-band-stop filter with an unsymmetrical T-shape defected ground structure (DGS) is proposed. The filter has two band gap centers at 4.9 GHz and 7.35 GHz, respectively, where the two centre frequencies ...A kind of dual-band-stop filter with an unsymmetrical T-shape defected ground structure (DGS) is proposed. The filter has two band gap centers at 4.9 GHz and 7.35 GHz, respectively, where the two centre frequencies are just the second and third harmonics 2.45 GHz. The filters with high band-stop performance and wideband spurious suppression can be achieved by cascading miniaturized unsymmetrical T-shape DGS. The attenuation of three-cascaded T-shape DGS filter is 30.77 dB at 4.9 GHz and 17.96 dB at 7.35 GHz respectively. The above experimental results are in good agreement with the simulation results, especially for the third harmonic.展开更多
基金supported by the National Natural Science Foundation of China(Nos.60706031 and 61574015)the National Science Foundation(No.4122058)+3 种基金the Young Elite Teacher Project(No.YETP0536)the Fundamental Research Funds for the Central Universities(Nos.2014JBM009 and W17JB00280)the State Key Laboratory of Rail Traffic Control and Safety(No.RCS2016K009)the “Talents Project” of Beijing Jiaotong University
文摘We numerically and experimentally proposed a dual-stop-band terahertz filter based on standard microelectronic fabrication method. The stop bands locate at 0.32 THz and 1.02 THz with 3 dB bandwidths of 0.26 THz and 0.55 THz, respectively. The resonance characteristics of the proposed device were discussed with the help of surface current maps and field density maps extracted from computer simulation software to better understand the working principle of the proposed device. On top of that, a total of seven devices with different dimensions were fabricated to fully discuss the dimension effects on the resonant frequency shift and bandwidth changes. This fabrication process is applicable for related integrated metamaterial devices and provides essential experiment evidences for effective ways of manipulating the transmission spectrum of the proposed filter.
文摘提出了一种具有双频特性的小型化带阻频率选择表面(Bandstop Frequency Selective Surface,BS-FSS)结构,通过调节所提出单元的结构参数可以实现对BS-FSS谐振频率的独立控制,在此基础上,设计了一款工作在3.84GHZ和6.67GHz的BS-FSS。仿真结果表明:所设计的BS-FSS的相对带宽分别为57.8%和12.9%,并且在工作频段内,对TE波和TM波均具有较好的极化、角度稳定度。此外,在相同介质条件下,设计的BS-FSS单元物理尺寸为7 mm×7mm,相比于传统的FSS单元,整体尺寸减小了56.9%,小型化优势显著。
文摘Photonic crystal heterostructures containing two materials and/or two lattice constants are synthesized using the colloids of polystyrene and polymethyl methacrylate by a self-assembling technique. These direct heterostructures with double stop band are infiltrated with zinc oxide by sol-gel method, followed by the removal of the original polymer template by a wet-etching process to result in inverse heterostructures made of zinc oxide. A red shift in the wavelength of stop bands is observed when the crystal is infiltrated with zinc oxide and a blue shift after inversion, in concurrence with the changes in the effective index of the structure. The stop band is also calculated to extract the number of layers and the extinction co-efficient contributing to the heterostructure. This structure made by a room-temperature low-cost technique produces a sparsely-filled zinc oxide crystal with a single refractive index but containing two different periodicities in a layered arrangement that can be used as a lab-on-a-chip for dual- or multi-wavelength sensing applications.
基金supported by the National Natural Science Foundation of China (61171051, 61202399, 61072136)
文摘A kind of dual-band-stop filter with an unsymmetrical T-shape defected ground structure (DGS) is proposed. The filter has two band gap centers at 4.9 GHz and 7.35 GHz, respectively, where the two centre frequencies are just the second and third harmonics 2.45 GHz. The filters with high band-stop performance and wideband spurious suppression can be achieved by cascading miniaturized unsymmetrical T-shape DGS. The attenuation of three-cascaded T-shape DGS filter is 30.77 dB at 4.9 GHz and 17.96 dB at 7.35 GHz respectively. The above experimental results are in good agreement with the simulation results, especially for the third harmonic.