Title :
Ultralow Reflectivity Spiral Phase Plate for Generation of Millimeter-wave OAM Beam
Author :
Xiaonan Hui ; Shilie Zheng ; Yiping Hu ; Chen Xu ; Xiaofeng Jin ; Hao Chi ; Xianmin Zhang
Author_Institution :
Dept. of Inf. Sci. & Electron. Eng., Zhejiang Univ., Hangzhou, China
Abstract :
An ultralow reflectivity spiral phase plate (SPP) is proposed to generate an orbital angular momentum (OAM) beam at millimeter-wave frequency. The SPP is composed of unit cells whose equivalent permittivity and thickness are designed to satisfy the impedance matching condition based on transmission line theory. The designed SPP is fabricated by a 3D printing technique. The near-field and far-field phase distributions clearly exhibit the azimuth phase shifting, and the far field directivity pattern shows that the direction, gain, and 3-dB beam-width of the main lobe are about 10.5°, 14.6 dB, and 14.5°, respectively. Compared with no impedance-matched SPP, the reflectivity of the SPP is improved by more than 20 dB.
Keywords :
angular momentum theory; impedance matching; millimetre wave generation; printing; transmission line theory; 3D printing technique; SPP; azimuth phase shifting; equivalent permittivity; far field directivity pattern; far-field phase distribution; gain 3 dB; impedance matching condition; millimeter-wave OAM beam generation; near-field phase distribution; orbital angular momentum; transmission line theory; ultralow reflectivity spiral phase plate; Antenna measurements; Impedance matching; Permittivity; Phase measurement; Reflection; Reflectivity; Spirals; Impedance matching; millimeter-wave; orbital angular momentum (OAM); spiral phase plate (SPP); transmission line theory;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2014.2387431
