Design and application of ultra-thin focus transmitarray

被引:0
|
作者
Li, Yinuo [1 ]
Chen, Juan [1 ,2 ]
Shi, Hongyu [1 ]
Li, Jianxing [1 ]
机构
[1] Xi An Jiao Tong Univ, Sch Informat & Commun Engn, Xian, Peoples R China
[2] Xi An Jiao Tong Univ, Shenzhen Res Sch, Shenzhen, Peoples R China
来源
JOURNAL OF PHYSICS D-APPLIED PHYSICS | 2023年 / 56卷 / 02期
关键词
transmitarray (TA); metasurface (MS); phase-shifting surface; high gain antenna; LENS ANTENNA; PHASE; REFLECTARRAY;
D O I
10.1088/1361-6463/aca489
中图分类号
O59 [应用物理学];
学科分类号
摘要
An ultra-thin transmitarray (TA) working at 10 GHz with bandwidth of 1.15 GHz is proposed. The TA is designed by arranging two types of phase-shifting cells, with a thickness of only 2.8 mm (0.09 lambda (0)). The proposed focus TA has an obvious convergence effect for plane wave. It enhances the electric field intensity by 11.85 dB at the focus and can also transform the incident spherical wave into the plane wave. When a substrate cylinder antenna is loaded with the proposed TA, it reaches a peak gain of 17.8 dBi (increased by 8.8 dB) and its half-power beamwidth is reduced from 84 degrees to 11 degrees. The TA is fabricated and measured. The measured results are highly consistent with the simulated results, which validates the good performance of the TA.
引用
收藏
页数:7
相关论文
共 50 条
  • [1] High gain transmitarray antenna based on ultra-thin metasurface
    Liu, Bohu
    Song, Chengtian
    INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING, 2019, 29 (05)
  • [2] Application of metamaterials to ultra-thin radar-absorbing material design
    Gao, Q
    Yin, Y
    Yan, DB
    Yuan, NC
    ELECTRONICS LETTERS, 2005, 41 (17) : 936 - 937
  • [3] Application of EBG substrates to design ultra-thin wideband directional dipoles
    Abedin, MF
    Ali, M
    IEEE ANTENNAS AND PROPAGATION SOCIETY SYMPOSIUM, VOLS 1-4 2004, DIGEST, 2004, : 2071 - 2074
  • [4] Piezo Motor for Ultra-Thin Auto Focus Cameras
    Henderson, D. A.
    Xu, Q.
    Piazza, D.
    ACTUATOR 08, CONFERENCE PROCEEDINGS, 2008, : 161 - 164
  • [5] Design and Implementation of Ultra-Thin SiP Modules
    Chen, Meng-Sheng
    Chang, Yung-Chung
    Chen, Wei-Ting
    Kuo, Tzu-Ying
    Chang, Li-Chi
    Tsai, Cheng-Hua
    Liu, Chang-Chih
    Chen, Chang-Sheng
    Ko, Cheng-Ta
    Wang, Yung-Yu
    Liang, Long-Zhen
    2012 7TH INTERNATIONAL MICROSYSTEMS, PACKAGING, ASSEMBLY AND CIRCUITS TECHNOLOGY CONFERENCE (IMPACT), 2012,
  • [6] Beam Steering Conformal Transmitarray Employing Ultra-Thin Triple-Layer Slot Elements
    Qin, Pei-Yuan
    Song, Li-Zhao
    Guo, Y. Jay
    IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2019, 67 (08) : 5390 - 5398
  • [7] AMCs for ultra-thin and broadband RAM design
    Zhang, Y.
    Mittra, R.
    Wang, B. -Z.
    Huang, N. -T.
    ELECTRONICS LETTERS, 2009, 45 (10) : 484 - 485
  • [8] An ultra-thin high-efficiency plasmonic metalens with symmetric split ring transmitarray metasurfaces
    Liu, Yong-Qiang
    Chen, Wenqiang
    Du, Xuemei
    Shu, Yingchao
    Wu, Lujun
    Ren, Zhongru
    Yin, Hongcheng
    Sun, Jinhai
    Qi, Kainan
    Che, Yongxing
    Li, Liangsheng
    RESULTS IN PHYSICS, 2023, 47
  • [9] Ultra-thin Spoof Surface Plasmonic Structure and its Application to Bandpass Filter Design
    Liu, Xiaoyong
    Zhao, Junming
    Jiang, Tian
    Feng, Yijun
    2014 IEEE INTERNATIONAL WIRELESS SYMPOSIUM (IWS), 2014,
  • [10] Asphalt mixture design for porous ultra-thin overlay
    Liu, Ziming
    Wang, Xinming
    Luo, Sang
    Yang, Xu
    Li, Qiang
    CONSTRUCTION AND BUILDING MATERIALS, 2019, 217 : 251 - 264
12345