点击次数：

DOI码：10.1364/OE.26.001978

发表刊物：OPTICS EXPRESS

摘要：W-band inverse synthetic aperture radar (ISAR) imaging systems are very useful for automatic target recognition and classification due to their high spatial resolution, high penetration and small antenna size. Broadband linear frequency modulated wave (LFMW) is usually applied to this system for its de-chirping characteristic. However, nearly all of the LFMW generated in electronic W-band ISAR system are based on multipliers and mixers, suffering seriously from electromagnetic interference (EMI) and timing jitter. And photonic-assisted LFMW generator reported before is always limited by bandwidth or time aperture. In this paper, for the first time, we propose and experimentally demonstrate a high-resolution W-band ISAR imaging system utilizing a novel logic-operation-based photonic digital-to-analog converter (LOPDAC). The equivalent sampling rate of the LOPDAC is twice as large as the rate of the digital driving signal. Thus, a broadband LFMW with a large time aperture can be generated by the LOPDAC. This LFMW is up-converted to W band with an optical frequency comb. After photonic-assisted de-chirping processing and data processing to the echo, a high-resolution two-dimension image can be obtained. Experimentally, W-band radar with a time-bandwidth product (TBWP) as large as 79200 (bandwidth 8 GHz; temporal duration 9.9 us) is established and investigated. Results show that the two-dimension (range and cross-range) imaging resolution is similar to 1.9 cm x similar to 1.6 cm with a sampling rate of 100 MSa/s in the receiver. (c) 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

第一作者：Peng, Shaowen, Li, Shangyuan, Xue, Xiaoxiao, Xiao, Xuedi, Wu, Dexin, Zheng, Xiaoping, Zhou, Bingkun

论文类型：J

文献类型：Article

卷号：26

期号：2

页面范围：1978

ISSN号：1094-4087

是否译文：否