• / 王雄 助理教授、研究员
    邮箱: wangxiong@@shanghaitech.edu.cn
    电话:(021) 20685264
    办公室: 信息学院1D-301B室
    专业方向: 电子科学与技术
王雄 助理教授、研究员

电 话:(021) 20685264
Email :wangxiong@@shanghaitech.edu.cn
办公室:信息学院1D-301B室
个人主页:
专业方向: 电子科学与技术


研究领域

电磁声学混合成像(热声成像,光声成像
电磁波与声波超表面、超材料
毫米波及太赫兹成像
癌症检测与治疗、生物医学检测、医疗器械
成像算法、压缩感知


个人简历

王雄2014年在美国亚利桑那大学获得电子工程博士学位,2009年在美国克莱姆森大学获得电子工程硕士学位。他将于2015年6月作为助理教授、研究员加入上海科技大学信息科学与技术学院。他在2013年获得国际电气电子工程师协会天线与传播分会的2012-2013年度博士研究奖。他的研究兴趣包括:乳腺癌的热声成像检测,乳腺癌的微波热治疗,压缩感知,电磁波对人体和生物组织的影响,无线通信天线设计等。


代表性论文

1.Xiong Wang,Tao Qin, Yexian Qin, Ahmed H. Abdelrahman, Russell S. Witte, and Hao Xin, “Microwave-induced thermoacoustic imaging for embedded explosives detection in high-water content medium,” to be published in IEEETransactions on Antennas and Propagation.

2. Zhi Chen, Guande Wang, andXiong Wang, “A kinetic model for unsaturated optical stopping in amorphous arsenic sulfide thin-film waveguides,” to be published in IEEE Photonics Journal.

3. Baosheng Wang, Yifei Sun, Chenzhe Li, andXiong Wang, “Time-efficient thermoacoustic imaging with high resolution for a large sample: A simulation study,” accepted by International Conference on Microwave and Millimeter Wave Technology ICMMT 2019.

4. Zhansong Lin andXiong Wang, “Detecting microwave orbital angular momentum by single-sensor imaging: A computational feasibility study,” accepted by International Conference on Microwave and Millimeter Wave Technology ICMMT 2019.

5. Dajun Zhang, Beng Chen, Zhongling Ba, Juncheng Cao, andXiong Wang, “Generation of broadband quasi-Bessel beams in sub-THz regime and applications in imaging,” accepted by International Conference on Microwave and Millimeter Wave Technology ICMMT 2019.

6. Dajun Zhang, Beng Chen, Zhongling Ba, Shuo Ni, Juncheng Cao, andXiong Wang, “Generation of broadband THz Airy beams applying 3D printing technique,” accepted by 13th European Conference on Antennas and PropagationEuCAP 2019.

7. Zhongling Ba andXiong Wang, “A transmission metasurface for generating high-efficiency broadband millimeter wave OAM beams,” accepted by 13th European Conference on Antennas and Propagation EuCAP 2019.

8. Jianian Li andXiong Wang, “Comparison of two small circularly polarized antennas for focused microwave hyperthermia,” accepted by 13th European Conference on Antennas and Propagation EuCAP 2019.

9. Fan Bi, Zhongling Ba, andXiong Wang, “Metasurface-based broadband orbital angular momentum generator in millimeter wave region,”Optics Expresses, vol. 26, no. 20, pp. 25693−25705, Sep. 2018.

10. Jitao Zhang, Mingguang Tuo, Min Liang,Xiong Wang, and Hao Xin, “Contribution assessment of antenna structures and in-gap photocurrent in terahertz radiation of photoconductive antenna,”Journal of Applied Physics, vol. 124, no. 5, pp. 053107-1−053107-9, Aug. 2018.

11. Lifan Xu, Baosheng Wang andXiong WangFabrication of thermoacoustic monitoring system for microwave hyperthermia, 2018 IEEE AP-S Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, Boston, MA, July 8-13, 2018.

12. Baosheng Wang, Zhongling Ba, Yifei Sun, Lifan Xu, andXiong Wang3D thermoacoustic imaging based on compressive sensing, 2018 International Workshop on Antenna Technology (iWAT), Nanjing, China, Mar. 4-7, 2018.

13. Xiong Wang, Tao Qin, Yexian Qin, Russell S. Witte, and Hao Xin, Microwave-induced Thermoacoustic Communications, IEEE Transactions on Microwave Theory and Techniques, vol. 65, no. 9, pp. 33693378, Sep. 2017.

14. Zhi Chen, Guande Wang,Xiong Wang, and Quanzhong Zhao, Moving toward optoelectronic logic circuits for visible light: a chalcogenide glass single-mode single-polarization optical waveguide switch, Applied Optics, vol. 56, no. 5, pp. 14051412, Feb. 2017.

15. Xiong Wang, Russell S. Witte, and Hao Xin, Thermoacoustic and photoacoustic characterization of few-layer graphene by pulsed excitations, Applied Physics Letters, vol. 108, no. 14, pp. 143104-1143104-5, Apr. 2016.

16. Xiong Wang,Tao Qin, Russell S. Witte, and Hao Xin, “Computational feasibility study of contrast-enhanced thermoacoustic imaging for breast cancer detection using realistic numerical breast phantoms,” IEEE Transactions on Microwave Theory and Techniques, vol. 63, no. 5, pp. 14891501, May 2015.

17. Tao Qin,Xiong Wang, Yexian Qin, Pier Ingram, Guobin Wan, Russell S. Witte, and Hao Xin, “Experimental validation of a numerical model for thermoacoustic imaging applications,” IEEE Antennas and Wireless Propagation Letters, vol. 14, pp. 1235−1238, 2015.

18. Tao Qin,Xiong Wang, Yexian Qin, Guobin Wan, Russell S. Witte, and Hao Xin, “Quality improvement of thermoacoustic imaging based on compressive sensing,” IEEE Antennas and Wireless Propagation Letters, vol. 14, pp. 1200−1203, 2015.

19. Daniel R. Bauer,Xiong Wang, Jeff L. Vollin, Hao Xin, and Russell S. Witte, “Broadband spectroscopic thermoacoustic characterization of single walled carbon nanotubes,” Journal of Spectroscopy, vol. 2015, Apr. 2015.

20.Xiong Wang, Daniel R. Bauer, Russell S. Witte, and Hao Xin, “A hybrid microwave / acoustic communication scheme - thermoacoustic communication,” 2013 IEEE International Microwave Symposium, Seattle, WA, Jun. 2−7, 2013.

21.Xiong Wang, Daniel R. Bauer, Jeff L. Vollin, David G. Manzi, Russell S. Witte, and Hao Xin, “Impact of microwave pulses on thermoacoustic imaging applications,” IEEE Antennas and Wireless Propagation Letters, vol. 11, pp. 1634−1637, Nov. 2012.

22.Xiong Wang, Daniel R. Bauer, Russell S. Witte, and Hao Xin, “Microwave-induced thermoacoustic imaging model for potential breast cancer detection,” IEEETransactions on Biomedical Engineering, vol. 59, no. 10, pp. 2782−2791, Oct. 2012.

23. Daniel R. Bauer,Xiong Wang, Jeff L. Vollin, Hao Xin, and Russell S. Witte, “Spectroscopic thermoacoustic imaging of water and fat composition,” Applied Physics Letters, vol. 101, no. 3, pp. 033705-1−033705-4, Jul. 2012.