Title :
Far-Field Super-Resolution Imaging With Compact and Multifrequency Planar Resonant Lens Based on Time Reversal
Author :
Qiang Gao ; Bing-Zhong Wang ; Xiao-Hua Wang
Author_Institution :
Inst. of Appl. Phys., Univ. of Electron. Sci. & Technol. of China, Chengdu, China
Abstract :
Planar resonant lenses (PRLs) consisting of periodically distributed strip resonators with different lengths are proposed for far-field super-resolution electromagnetic imaging. With the help of PRLs, evanescent waves can be converted into propagation waves. So, based on time-reversal (TR) technique, time-reversal mirror in the far-field can receive the electromagnetic signals carrying the subwavelength information. Experiments are performed to validate the proposed method in laboratory environment at microwave band. Far-field super-resolution imaging results with resolutions of λ/20 and λ/10, respectively, are obtained, well beyond the diffraction limit. The compact size and multifrequency property of the proposed PRLs will make them easily be integrated to new super-resolution imaging systems.
Keywords :
lenses; microwave imaging; strip line resonators; compact resonant lens; electromagnetic imaging; evanescent waves; far field superresolution imaging; microwave band; multifrequency planar resonant lens; periodically distributed strip resonators; propagation waves; time-reversal mirror; time-reversal technique; Electric fields; Imaging; Lenses; Signal resolution; Spatial resolution; Wires; Far-field; far-field; planar resonant lens; planar resonant lens (PRL); super-resolution imaging; time-reversal; time-reversal (TR);
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2015.2496098
