.[79]Xiaojun Wu*, Deyin Kong#, Sibo Hao#, Yushan Zeng#, Xieqiu Yu, Baolong Zhang, Mingcong Dai, Shaojie Liu, Jiaqi Wang, Zejun Ren, Sai Chen, Jianhua Sang, Kang Wang, Dongdong Zhang, Zhongkai Liu, Jiayan Gui, Xiaojun Yang, Yi Xu, Yuxin Leng, Yutong Li, Liwei Song*, Ye Tian*, and Ruxin Li, Generation of 13.9-mJ Terahertz Radiation from Lithium Niobate Materials, Advanced Materials, 35(23), 2208947 (2023) (JCR Q1, IF=32.086,https://doi-org-s.vpn.buaa.edu.cn:8118/10.1002/adma.202208947)
.[78]Xiaojun Wu*, Hanchen Wang#, Haijiang Liu#, Yizhan Wang#, Xinhou Chen, Peng Chen, Peiyan Li, Xiufeng Han, Jungang Miao, Haiming Yu, Caihua Wan,* Jimin Zhao*, and Sai Chen*, Antiferromagnetic–Ferromagnetic Heterostructure-Based Field-Free Terahertz Emitters, Advanced Materials, 34(42), 2204373 (2022) (JCR Q1, IF=32.068, https://doi.org/10.1002/adma.202204373)
.[77]Xieqiu Yu#, Yushan Zeng#, Liwei Song*, Deyin Kong, Sibo Hao, Jiayan Gui, Xiaojun Yang, Yixu, Xiaojun Wu*, Yuxin Leng, Yetian*, and Ruxin Li*, Megaelectronvolt electron acceleration driven by terahertz surface waves, Nature Photonics (2023) (IF=38.2, https://doi.org/10.1038/s41566-023-01251-8)
.[76]Xinhou Chen#, Hangtian Wang#, Haijiang Liu#, Chun Wang, Gaoshuai Wei, ChanFang, Hanchen Wang, Chunyan Geng, Shaojie Liu, Peiyan Li, Haiming Yu, Weisheng Zhao, Jungang Miao, Yutong Li, Li Wang, Tianxiao Nie*, JiminZhao*, and Xiaojun Wu*, Generation and Control of Terahertz Spin Currents in Topology-Induced 2D Ferromagnetic Fe3GeTe2|Bi2Te3 Heterostructures, Advanced Materials, 34(9) 2106172 (2022) (JCR Q1,IF=32.086,https://doi.org/10.1002/adma.202106172)
.[75]Shixing Yuan, Liao Chen, Ziwei Wang, Wentao Deng, Zhibo Hou, Chi Zhang, Yu Yu, Xiaojun Wu,* and Xinliang Zhang,* On-chip terahertz isolator with ultrahigh isolation ratios, Nature Communications, 12, 5570 (2021)(JCR Q1, IF=17.694,https://doi.org/10.1038/s41467-021-25881-0)
.[74]Peixin Qin#, Xiaorong Zhou#, Li Liu#, Ziang Meng, Han Yan, Hongyu Chen, Xiaoning Wang, Xiaojun Wu*, Zhiqi Liu*, Antiferromagnetic spintronics: towards high-density and ultrafast information technology, Science Bulletin, 10(68), 972 (2023) (JCR Q1, IF=18.9, https://doi.org/10.1016/j.scib.2023.04.024)
.[73]Peiyan Li, Na Wu, Shanshan Liu, Yu Cheng, Piming Gong, Junwei Tong, Jianan Liu, Wei He,* Faxian Xiu,* Jimin Zhao,* Sheng Meng,* and Xiaojun Wu*. Above Curie Temperature Ultrafast Terahertz Emission and Spin Current Generation in a Two-Dimensional Superlattice (Fe3GeTe2/CrSb)3, National Science Review (2024, online)
.[72]Shaojie Liu, Zejun Ren, Peng Chen, Sai Chen, Mingxuan Zhang, Zehao Yang, Deyin Kong, Jinguang Wang, Yifei Li, Jinglong Ma, Xin Lu, Baolong Zhang, Zhongkai Liu, Xiufeng Han, Caihua Wan* , Yutong Li* , Ranjan Singh, Xiaojun Wu*, External-magnetic-field-free spintronic terahertz strong-field emitter, Ultrafast Science, 4 (2024)
.[71]Chunyan Geng#, Yichen Su#, Deyin Kong, Zehao Yang, Jianghao Li, Jiahua Cai, Fei Dai, Cheng Song, Xiaojun Wu∗, Zeeman torque sampling of intense terahertz magnetic field in CoFe, Optics Letters, 49(16), 4589 (2024)
.[70]Mingcong Dai, Jiahua Cai, Zejun Ren, Mingxuan Zhang, Jiaqi Wang, Hongting Xiong, Yihang Ma, Youwei Wang, Sitong Zhou, Kuiju Li, Zhentao Lv and Xiaojun Wu*,Spintronic terahertz metasurface emission characterized by scanning near-field nanoscopy, Nanophotonics, 13(8), 1493-1502 (2024)