Opto-Electronic Engineering
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Special Issue:Terahertz Imaging Technology
Invited expert: Professor Zhang Yan (Capital Normal University), Professor Wang Dayong (Beijing University of Technology), Professor Zhu Liguo (China Academy of Engineering Physics)

Terahertz (THz) radiation is an electromagnetic wave whose frequency is in the range of 0.1 THz~30 THz. THz waves have a good transmissivity through non-polar materials, and have no ionization effects on biomedical tissues. Therefore, it is ideal for the applications such as non-destructive testing and biomedical imaging, semiconductor characterization and so on. With the development of the technology of terahertz source and detector, researchers have introduced all kinds of methods to enhance the performance of this imaging technique. Terahertz imaging technology has been tried to apply into various industrial and fundamental research fields. This Special Issus mainly introduces the development and future of terahertz imaging technology from method and application.
It is hoped that the special issue entitled “terahertz imaging technology” can show innovative terahertz imaging key technologies and the development trends in the future by the reviews. Meanwhile by sharing the application achievements, the researches of related terahertz imaging method and application are encouraged. Furthermore, we hope to further promote the upgrading of terahertz imaging technology, so that it can better serve the human production and life.
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  Review  |  QTP29;O441.4
Online Time:May 15, 2020
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Fu Zhanglong, Li Ruizhi, Li Hongyi, et al. Research progress of imaging technology based on terahertz quantum well photodetector[J]. Opto-Electronic Engineering, 2020, 47(5): 190667. 
  Review  |  TN29;O433.1
Online Time:May 15, 2020
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Chen Sichao, Du Lianghui, Zhu Liguo. THz wave computational ghost imaging: principles and outlooks[J]. Opto-Electronic Engineering, 2020, 47(5): 200024. 
  Review  |  O441.4;O433.1
Online Time:May 15, 2020
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Wang Xinke, Zhang Yan. Advancement and application of terahertz pulsed focal-plane imaging technique[J]. Opto-Electronic Engineering, 2020, 47(5): 190413. 
  Review  |  O438.1;TB877.1
Online Time:May 15, 2020
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Shi Xiaoyu, Wang Dayong, Rong Lu, et al. Phase contrast imaging based on continuous-wave terahertz digital holography[J]. Opto-Electronic Engineering, 2020, 47(5): 190543. 
  Review  |  TH742;O439
Online Time:May 15, 2020
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Ma Xiaoming, Jiang Zaichao, Qu Qingshan, et al. Research advances of high-resolution THz imaging based on terajet effect[J]. Opto-Electronic Engineering, 2020, 47(5): 190590. 
  Review  |  TN29;R318.6
Online Time:May 15, 2020
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Shi Chenjun, Wu Xu, Peng Yan. Applications of terahertz imaging technology in tumor detection[J]. Opto-Electronic Engineering, 2020, 47(5): 190638. 
  Review  |  TN29;R318.6
Online Time:May 15, 2020
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Yan Zhiyao, Huang Wanxia, Huang Qingqing, et al. Research progress of terahertz medical imaging[J]. Opto-Electronic Engineering, 2020, 47(5): 190721. 
  Review  |  TN951;O441.4
Online Time:May 15, 2020
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Liu Jie, An Jianfei, Zhou Ren, et al. Terahertz near-field MIMO-SAR technology for human security inspection[J]. Opto-Electronic Engineering, 2020, 47(5): 190682. 
  Review  |  TB877;O438.1
Online Time:May 15, 2020
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Liu Xingbo, Wang Qiu, Xu Quan, et al. Metasurface-based computer generated holography at terahertz frequencies[J]. Opto-Electronic Engineering, 2020, 47(5): 190674. 
  Article  |  TN29;O441.4
Online Time:May 15, 2020
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Geng Xingning, Li Jining, Xu Degang, et al. Terahertz wave propagation and imaging detection characteristics in plasma[J]. Opto-Electronic Engineering, 2020, 47(5): 190075. 
  Article  |  TN391.4;TN29
Online Time:May 15, 2020
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Yang Moxuan, Zhao Yuanmeng, Zuo Jian, et al. An experimental study on terahertz light field data acquisition and digital refocusing[J]. Opto-Electronic Engineering, 2020, 47(5): 190670.