上海交通大学电子工程系

肖高标长聘教授

地址：上海市东川路800号电信群楼 1-539

电话：+86 21 34204337

邮箱：gaobiaoxiao@sjtu.edu.cn

研究中心：微波与射频技术研究中心

个人简介

1965年出生于湖南省洞口县。

1988年华中科技大学无线电系毕业获学士学位，1991年国防科技大学四系硕士毕业后进入湖南大学电气工程系，1996年副教授兼师资办副主任，1997年-1999年在日本千叶大学高级访问学者，1999年进入千大研究生院，2002年在千叶大学获工学博士学位。 2002年-2004年在日本Hirel公司任射频工程师。2004年进入上海交通大学微波所。

研究方向包括电磁场理论、电磁兼容、强电磁脉冲防护、计算电磁学、天线与传播、微波器件等方面，主持了10多个国家和省部级科研项目；先后获得上海市科技进步一等奖3项。发表学术论文190余篇，包括11篇IEEE Transactions第1作者论文、2014年亚太微波会议（日本仙台）最佳大会论文。提出了电磁辐射和耦合的能量分解方程、宏观Schott能量、电磁辐射非均匀传输线模型、非均匀传输线滤波器、阻抗匹配器的高效设计方法，广义电磁传输矩阵方法和广义热传输矩阵方法。获国家科技出版基金资助出版专著1本，Springer出版社出版英文专著1本；Wiley出版社等出版英文专章3章。

研究领域

1. 计算电磁学方法及其应用：主要研究基于积分方程的频域/时域计算电磁学方法，以及它们在复杂电子系统电磁特性分析中的应用

2. 电磁场理论：主要研究经典电磁场理论、电磁辐射、电磁能量与耦合；天线与传播

3. 微波超材料及其应用：主要研究微波超材料的电磁调控原理、电磁特性分析、设计方法及其在微波器件设计中的应用

4. 多物理场分析：主要研究电子系统中的电磁-热耦合特性、高效数值分析方法

研究方向

低频电磁场分析计算
飞行器电磁散射特性分析
人工合成微波超材料分析与设计
毫米波芯片封装及与天线的系统集成
电磁辐射、电磁耦合与电磁能量相关理论研究

获奖情况

1. 2023年，PIERS会议分会组织奖（捷克布拉格）

2. 2020年，射频集成电路EDA关键技术与工具，2020年度“中国高校十大科技进展”（参与）

3. 2019年，射频技术EDA的关键技术研发与应用, 上海市科技进步一等奖(R08)

4. 2015年，上海交通大学优秀教师奖，三等奖

5. 2014年，New multi-way SIW power dividers with high isolation, 亚太微波会议(APMC日本)，最佳会议论文（排名第2）

6. 2011年, 射频系统级封装技术及其应用, 上海市科技进步一等奖(R07)

7. 2005年，新型微波射频电路研究, 上海市科技进步一等奖（R04）

授课

1. 致远荣誉博士学位课程：高等电磁场理论

2. 本科生必修课：电磁场(A)

3. 研讨课：快速电磁计算方法、特征模理论、压缩感知、微带滤波器设计与应用、电磁逆散射

科研项目

1. 主持项目约17项，其中包括科技部重点研发计划课题1项（2020-2023）；国家自然科学基金面上项目2项（2010年；2018年）；十二五预研项目2项（2011-2015年）；上海市科技行动创新计划项目1项（2020-2022）；基础加强项目1项（交大负责人，2019）；国防重点实验室基金项目（2019年），以及航天支撑技术基金、上海航天基金项目等。在这些项目中主要研究毫米波传输、计算电磁学方法、电磁兼容、强电磁脉冲防护、天线技术、微波器件设计等

2. 参与项目：国家基金委基础科学中心、创新群体项目、973项目、自然科学基金重点项目、重大仪器专项、重点研究计划项目等，主要研究与片上系统、系统级封装相关的电磁场问题、电磁参数提取技术、新型电磁解析问题等。

学术兼职

多次担任国家自然科学奖励评审专家和上海市科技奖励评审专家；担任过上海市重大项目预算评审专家；多次担任科技部项目评估专家、基金委评审专家、江苏省科技项目与人才项目评估专家。
IEEE天线上海分会现任副主席，IEEE高级会员，多次组织或协助组织IEEE学术交流活动。
2014年担任过SCI期刊International J Antenna Propagation专辑客座主编1次。
2010年亚太微波会议（APMC日本）分会主席；2015年亚太天线会议(APCAP印尼)分会主席;2016年PIERS（上海）组委会成员和分会主席；2018年PIERS(日本)分会主席；2019年国际计算电磁学会议(ICCEM上海)的组委会成员和Publication Chair；2019年PIERS(厦门)分会主席；多次担任全国微波年会分会主席。
16种SCI期刊以及国内刊物审稿专家

著作及专利

1. Gaobiao Xiao, Electromagnetic Sources and Electromagnetic Fields. Springer Nature: Singapore, Feb. 2024. ISSN 2731-7994. https://link.springer.com/book/10.1007/978-981-99-9449-6.

2. Gaobiao Xiao, Yuyang Hu, Xuezhe Tian, Shifeng Huang, Rui Liu, Advances in Time-Domain Computational Electromagnetic Methods: Solving Electromagnetic Scattering Problems Using Impulse Responses. Edited by: Qiang Ren, Su Yan, Atef Z. Elsherbeni. Online ISBN: 9781119808404, John Wiley & Sons, Inc., Nov. 2022 (chapter 9).

3. 肖高标，《频域广义传输矩阵方法》，国家科学技术学术著作出版基金、工业与信息产业科技与教育专著出版基金联合资助。ISSN：978-7-121-24821-4。2015年1月电子工业出版社出版。

4. Gaobiao Xiao, Junfa Mao, Advanced Microwave and Millimeter Wave Technologies: Semiconductor Devices, Circuits and Systems, edited by: Moumita Mukherjee, ISBN 978-953-307-031-5, IN-TECH: Vienna, 2010 (one chapter).

5. Xianghong Kong, Lina Qiu, Gaobiao Xiao, Resonance: Fano Resonance in High-Permittivity Objects, edited by Jan Awrejcewicz, ISSN 978-953-51-3633-0, Intech Open, Nov. 2017(one chapter).

6. 张昭，肖高标，基于频域广义传输矩阵的散射体仿真软件[FD-GTM] V1.0，中华人民共和国国家版权局, 登记号: 2015SR143874.

7. 尹鹏，肖高标，基于时域广义传输矩阵的散射体仿真软件[TD-GTM] V1.0，中华人民共和国国家版权局, 登记号: 2015SR143518.

8. 邱丽娜，肖高标，“一种基于AMC超表面的宽带高增益圆极化天线”，中华人民共和国国家知识产权局, 专利号：ZL202023073252.

9. 杜安刚，肖高标，“顺序相位馈电的铁氧体加载的圆极化天线阵”，中华人民共和国国家知识产权局, 专利号：ZL202023073258.4.

10. 王晓成，王述琪，肖高标，一种带背腔的多层结构陷波传输线. 202211552202.8. 中国发明专利。

11. 王晓成，肖高标，程昊，赵彬杉。发明专利名称：基于超表面结构复用的正交极化双频带共口径毫米波天线。专利号：2023102592879。申请日：2023-03-16。

12. 王晓成，肖高标。发明专利名称：一种用于自动驾驶领域的双频宽波束低副瓣共口径天线。专利号：2023116862252。

重要论文

1. Gaobiao Xiao, Xiaocheng Wang and Ting Zang, “Optimization of far-field patterns based on direct synthesis results,” IEEE Trans. Antennas Propagat. vol. 71, no. 12, pp. 9956-9961, Dec. 2023, doi: 10.1109/TAP.2023.3321429.

2. Gaobiao Xiao, and Rui Liu, “Explicit definitions for the electromagnetic energies in electromagnetic radiation and mutual coupling,” Electronics, vol. 12, no. 19, 4031, 2023.

3. Xiaocheng Wang, Gaobiao Xiao, Hao Cheng and Binshan Zhao, “An orthogonally polarized shared-aperture antenna based on structure reuse of metasurface,” IEEE Antennas Wireless Propagat. Lett., vol. 22, no. 12, pp. 2821-2825, Dec. 2023.

4. doi: 10.1109/LAWP.2023.3300075.

5. Hao Cheng, Gaobiao Xiao, Xiaocheng Wang, “A low-profile wideband patch antenna with modified parasitic mushroom structures on nonperiodic AMC,” IEEE Antennas Wireless Propagat. Lett., vol.22, no.4, pp. 719-723, Apr. 2023. 10.1109/LAWP.2022. 3223156.

6. Gaobiao Xiao, Mengxia Hu, “Nonuniform transmission line model for electromagnetic radiation in free space,” Electronics, vol. 12, no. 6, pp. 1355, Feb. 2023. 12(6), 1355. 10.3390/electronics12061355

7. Gaobiao Xiao, Ting Zang, and Rui Liu, “Synthesis of non-mirror-symmetrical far-field patterns using two parallel current sheets,” Electronics, vol. 12, no. 4, pp. 892, Mar. 2023. 10.3390/electronics12040892.

8. Yuyang Hu, Gaobiao Xiao, Shifeng Huang, “Efficient frequency sweep technique for analysis of array with identical modules,” IEEE Antennas Wireless Propagat. Lett., vol. 22, no. 2, pp.313-317, Feb. 2023.

9. Gaobiao Xiao, “The Schott energy and the reactive energy in electromagnetic radiation and mutual coupling”, Phys. Scr., vol. 98， 015512，Dec. 2022. 10.1088/ 1402-4896/acaa0b.

10. Gaobiao Xiao, Rui Liu, “Direct method for reconstructing the radiating part of a planar source from its far-fields,” Electronics, vol.11, no.23, 3852, Nov. 2022. 10.3390/electronics11233852.

11. Gaobiao Xiao, “Nonuniform transmission line model for electromagnetic radiation in free space,” TechRxiv. Preprint. 10.36227/techrxiv.21602397.v1, 2022.

12. Hao Cheng, Gaobiao Xiao, Xiaocheng Wang, “A low-profile wideband patch antenna with modified parasitic mushroom structures on nonperiodic AMC,” IEEE Antennas Wireless Propagat. Lett., 10.1109/LAWP.2022.3223156 (Early access)

13. Xiaocheng Wang, Gaobiao Xiao, Lixue Yang, Hao Li, and Qihao Xu, “Broadband D-band patch antenna array in wafer-level package based on BCB process,” IEEE Open J. Antennas Propagat., vol. 3, pp. 1172-1179, Oct. 2022. 10.1109/OJAP.2022. 3214488.

14. Hongyun Deng, Gaobiao Xiao, Guomin Liu, “An efficient method for calculating the doppler spectrum of an arbitrarily shaped object in uniform motion,” IEEE Trans. Antennas Propagat., vol. 70, no. 11, pp10894-10902, Nov. 2022. 10.1109/TAP. 2022.3191188

15. Lina Qiu, Gaobiao Xiao, “A broadband metasurface antenna array with ultra-wideband RCS reduction,” IEEE Trans. Antennas Propagat., vol. 70, no.9, pp. 8620-8625, Sep. 2022. 10.1109/TAP.2022.3168596. (Listed in the Popular documents of Oct. 2022, and What's Hot in Antennas and Propagation: WHAP; IEEE TAP.)

16. Gaobiao Xiao, “Calculating the energies of a pulse radiator with marching-on in time algorithm”, IEEE International Symposium on Antennas and Propagation (APSURSI), 10-15, July 2022, Denver, Colorado, USA.

17. Shifeng Huang, Gaobiao Xiao, and Junfa Mao, “Low-frequency transmitted fields of a source inside a magnetic shell with large conductivity,” ACES Journal, vol.37, no.2, pp. 238-245, Feb. 2022.

18. Ken Ning, Xiaochun Li, Gaobioa Xiao, Zongrui Xu and Junfa Mao, “Skew-Symmetric Slotted Waveguide with Mode Select Effect,” IEEE Trans. Compon., Packag. Manuf. Techn., vol. 12, no. 7, pp. 1150-1159, Jul. 2022.

19. Yuyang Hu, Gaobiao Xiao, Shifeng Huang, Rui Liu, “Applying loop-star functions with multibranch Raw-Wilton-Glisson basis functions in the time domain electric field integral equation,” IEEE J. Multiscale Multiphys. Comput. Techn., vol.7, pp. 9-13, Feb. 2022.

20. Hao Li, Gaobiao Xiao and Xiaocheng Wang, “Octa-OAM-mode SIW slot antenna on two PCB layers with simple feeding networks,” Electromagnetics, vol.42, no. 1, pp.1-12, Apr. 2022. 10.1080/ 02726343.2022.2061826

21. Gaobiao Xiao, “An interpretation for Aharonov-Bohm effect with classical electromagnetic theory,” 2022. 10.48550/arXiv.2201.12292.

22. Shifeng Huang, Gaobiao Xiao, Yuyang Hu, Rui Liu, and Junfa Mao, “Loop-star functions including multibranch Raw-Wilton-Glisson basis functions,” IEEE Trans. Antennas Propagat. vol.70, no.5, pp. 3910-3915, May 2022. 10.1109/TAP.2021. 3137464.

23. Rui Liu, Gaobiao Xiao, Shifeng Huang and Yuyang Hu, “Multi-branch Schaubert- Wilton-Glisson basis functions for electromagnetic scattering problem,” IEEE Trans. Antennas Propagat. vol.70, no.4, pp.3100-3105, Apr. 2022. 10.1109/TAP. 2021.3137210.

24. Hongyun Deng, Gaobiao Xiao, Shifeng Huang, “New approximate expressions for evaluating the fields of a vertical magnetic dipole in a dissipative half space,” ACES Journal, vol.36, no.11, pp.1393-1400, Nov. 2021.

25. Lina Qiu, and Gaobiao Xiao, “An artificial magnetic conductor-based wideband circularly polarized antenna with low-profile and enhanced gain,” Electronics, vol.10, no. 17, Aug. 2021. 10.3390/electronics10172121.

26. Shifeng Huang, Gaobiao Xiao, Yuyang Hu, Rui Liu and Junfa Mao, “Multi-branch Rao-Wilton-Glisson basis functions for electromagnetic scattering problems,” IEEE Trans. Antennas Propagat., vol.69, no.10, pp. 6624-6634, Oct. 2021.

27. Can Xiong and Gaobiao Xiao, “Excitation retrieval for phased arrays with magnitude only fields measured at a fixed location,” IEEE Antennas Wireless Propagat. Lett., vol. 20, no.2, pp.264-268, Feb. 2021.

28. Gaobiao Xiao, “A theory for electromagnetic radiation and coupling,” TechRxiv. Preprint. 10.36227/techrxiv.16686112.v5, 2021.

29. Gaobiao Xiao, “A theory for analysis of pulse electromagnetic radiation,” TechRxiv. Preprint. 10.36227/techrxiv.14054051.v4, 2021.

30. Gaobiao Xiao, Can Xiong, Shifeng Huang, Rui Liu, Yuyang Hu, “A new perspective on the reactive electromagnetic energies and Q factors of antennas,” IEEE Access, vol. 8, 8999565, pp. 173790-173803, Oct. 2020. 10.1109/ACCESS.2020.3024888.

31. Yuyang Hu, Gaobiao Xiao, Shang Xiang, “A generalized transition matrix model combined with discontinuous Galerkin method for open cavities,” IEEE Open J. Antennas Propagat., pp. 272-282, June 2020. 10.1109/OJAP.2020. 2999657.

32. Musab Hameed, Gaobiao Xiao, Lina Qiu and Tayyab Hameed, “Quintuple-mode wideband bandpass filters with improved out-of-band rejection,” Int. J. Microw. Wireless Techn. vol. 12, Issue 4, pp. 276-281, May 2020.

33. Can Xiong, Gaobiao Xiao, “A diagnosing method for phased antenna array element excitation amplitude and phase failures using random binary matrices,” IEEE Access, vol. 8, 8999565, pp. 33060-33071, Feb. 2020.

34. Xianghong Kong, Yun Zhou, Gaobiao Xiao, and Daniel F. Sievenpiper, “Spin-momentum locked modes on anti-phase boundaries in photonic crystals,” Optics Express, vol. 28, no. 2, pp.2070-2078, Jan. 2020.

35. 肖高标,熊灿,刘睿,袁斌,毛军发,基于频域广义传输矩阵方法的电磁散射特性分析,电波科学学报. 35(2),179-191,2020.（该期2篇优秀论文之一）

36. Gaobiao Xiao, “Electromagnetic energy balance equations and Poynting theorem,” arXiv: 1910.02468v3 [physics.class-ph], Oct. 2019.

37. Can Xiong, Gaobiao Xiao, Yibei Hou, Musab Hameed, “A compressed sensing based element failure diagnosis method for phased array antenna during beam steering,” IEEE Antennas Wireless Propagat. Lett., vol.18, no. 9, pp. 1756 – 1760, Sept. 2019.

38. Lina Qiu, Gaobiao Xiao, Xianghong Kong, and Can Xiong, “Broadband, polarization insensitive low-scattering metasurface based on lossy Pancharatnam-Berry phase particles,” Optics Express, vol. 27, no. 15, pp. 21226-21238, Jul. 2019.

39. Xianghong Kong, Dia'aaldin J. Bisharat, Gaobiao Xiao, and Daniel F. Sievenpiper, “Analytic theory of an edge mode between impedance surfaces,” Phys. Rev. A, 99, 033842, Mar. 2019.

40. Musab Hameed, Gaobiao Xiao, Ali Imran Najam, Lina Qiu, and Tayyab Hameed, “Quadruple-mode wideband bandpass filter with improved out-of-band rejection,” Electronics, vol. 8, no.3, 300, Mar. 2019. 10.3390/electronics8030300

41. Musab Hameed, Gaobiao Xiao, Lina Qiu, Can Xiong, Tayyab Hameed, “Multiple-mode wideband bandpass filter using split ring resonator in a rectangular waveguide cavity,” Electronics, vol. 7, 356, Nov. 2018.

42. Musab Hameed, Gaobiao Xiao, Lina Qiu, “Triple-mode wideband bandpass filter using simple perturbation in metallic-loaded rectangular waveguide cavity,” Electromagnetics, vol.38, no.5, May 2018.

43. Yibei Hou, Gaobiao Xiao, “A discontinuous Galerkin augmented electric field integral equation for multiscale electromagnetic scattering problems,” IEEE Trans. Antennas Propagat., vol.65, no.7, pp. 3615 - 3622, Jul. 2017.

44. Zheng Liu, Gaobiao Xiao, “Design of SIW-based multi-aperture couplers using ray tracing method,” IEEE Trans. Compon., Packag. Manuf. Techn., vol.7, no.1, pp.106-113, Jan. 2017.

45. Gaobiao Xiao, Yibei Hou, “An intuitive formulation of discontinuous Galerkin surface integral equations,” IEEE Trans. Antennas Propagat., vol.65, no.1, pp.287-294, Jan. 2017.

46. Zheng Liu, Gaobiao Xiao, Lei Zhu, “Numerical de-embedding and experimental validation of propagation properties of corrugated substrate integrated waveguide,” Microw. Optic. Techn. Lett., vol. 58, no. 10, pp. 2456-2460, Oct. 2016.

47. Xianghong Kong, Gaobiao Xiao, “Fano resonance in high-permittivity dielectric spheres,” J. Optic. Soc. Amer. A, vol. 33, no. 4, pp.707-711, Apr. 2016.

48. Zheng Liu, Gaobiao Xiao, Lei Zhu, “Triple-mode bandpass filters on CSRR-loaded substrate integrated waveguide cavities,” IEEE Trans. Compon., Packag. Manuf. Techn., vol.6, no.7, pp.1099-1105, Jul. 2016.

49. Zheng Liu, Lei Zhu, Gaobiao Xiao, “A novel microwave attenuator on multilayered substrate integrated waveguide,” IEEE Trans. Compon., Packag. Manuf. Techn., vol.6, no.7, pp.1106-1112, July.2016.

50. Shang Xiang, Gaobiao Xiao, and Junfa Mao, “A generalized transition matrix model for open-ended cavity with complex internal structures,” IEEE Trans. Antennas Propagat., vol.64, no.9, pp.3920-3930, Sept. 2016.

51. Zheng Liu, Lei Zhu, Gaobiao Xiao, “An effective approach to de-embed the complex propagation constant of half mode SIW and its application,” IEEE Trans. Compon., Packag. Manuf. Techn., vol.6, no.1, pp.109-116, Jan.2016.

52. Xuezhe Tian, Gaobiao Xiao and Shang Xiang, “Time-domain generalized transition matrix for transient scattering analysis of arrays,” IEEE Antennas Wireless Propag. Lett., vol. 15, pp. 238-241, Jun. 2016.

53. Yibei Hou, Gaobiao Xiao, and Jinpeng Fang, “On the properties of loop-flower basis functions,” ACES Journal, vol. 30, no. 5, pp.527-533, May 2015.

54. Gaobiao Xiao, Xuezhe Tian, Wei Luo, Jinpeng Fang, “The impulse responses and the late time stability properties of time domain integral equations,” IET Microw. Antennas Propag. vol. 9, issue 7, pp. 603-610, May 2015.

55. Xuezhe Tian, Gaobiao Xiao, Jinpeng Fang, “Application of loop-flower basis functions in the time-domain electric field integral equation,” IEEE Trans. Antennas Propagat., vol.63, no.3, pp.1178-1181, Mar. 2015.

56. Zheng. Liu and Gaobiao. Xiao, “New multi-way SIW power dividers with high isolation,” Microwave Conference Proceedings (APMC), 2014 Asia-Pacific, Sendai, pp.702-704, Nov. 4-7, 2014. (Best Paper Prize)

57. Gaobiao Xiao, “Applying loop-flower basis functions to analyze electromagnetic scattering problems of PEC scatterers,” Int. J. Antennas Propag., vol. 2014, Article ID 905935, 9 pages, 2014.

58. Shang Xiang, Gaobiao Xiao and Junfa Mao, “Analyzing electromagnetic systems on electrically large platform using a GTM-PO hybrid method with synthetic basis functions,” Int. J. Antennas Propag., vol. 2014, Article ID 162421, 7 pages, 2014.

59. Xuezhe Tian, and Gaobiao Xiao, “Time-domain augmented electric field integral equation for a robust marching on in time solver,” IET Microw. Antennas Propag., vol.8, no.9, pp.688-694, June 2014.

60. Xuezhe Tian, Gaobiao Xiao, and Shang Xiang, “Application of analytical expressions for retarded-time potentials in analyzing the transient scattering by dielectric objects,” IEEE Antennas Wireless Propag. Lett., vol.13, pp.1313-1316, 2014.

61. Zheng Liu, Gaobiao Xiao, and Shang Xiang, “New CBCPW-to-SIW transition with improved bandwidth,” Microw. Optic. Techn. Lett., vol.56, no. 11, pp.2731-2734, Nov.2014.

62. Lianrong Hong, Guiyu Tian, Jinpeng Fang, Gaobiao Xiao, “The behavior of MFIE and EFIE at interior resonances and its impact in MOT late time stability,” Amer. J. Electromagn. Appli., vol. 1, no. 2, pp. 30-37, 2013.

63. Shang Xiang, Gaobiao Xiao, Junfa Mao, “Analysis of large-scale phased antenna array with generalized transition matrix,” IEEE Trans. Antennas Propagat., vol.61, no.11, pp.5453-5464, Nov. 2013.

64. Wentao Chen, Gaobiao Xiao,Shang Xiang,and Junfa Mao, “A note on the construction of synthetic basis functions for antenna arrays,” IEEE Trans. Antennas Propagat., vol.60, no. 7, pp.3509-3512, Jul. 2012.

65. Gaobiao Xiao, Luo Zhang, Yue Zhou, “Generalized heat transition matrix for arbitrarily-shaped thermal media and its applications to steady state heat conduction problems in large scale systems,” Numerical Heat Transfer, Part B: Fundamentals, vol. 59, Issue 4, pp. 319-338, Apr. 2011

66. Gaobiao Xiao, Luo Zhang, Yue Zhou, Junfa Mao, “Equivalence principle for analyzing steady-state heat conduction problems,” Numerical Heat Transfer, Part B: Fundamentals, vol. 59, Issue 3, pp. 226-244, Mar. 2011

67. Bo Zhang, Gaobiao Xiao, Junfa Mao and Yan Wang, “Analyzing large-scale non-periodic arrays with synthetic basis functions,” IEEE Trans. Antennas Propagat., vol.58, no.11, pp.3576-3584, Nov. 2010 .

68. Gaobiao Xiao, Junfa Mao and Liang Zhou, “Generalized transition matrix for a multilayered scatterer with arbitrary interfaces,” IEEE Trans. Antennas Propagat., vol.57, no. 10, pp.3434-3438, Oct. 2009.

69. Gaobiao Xiao, Junfa Mao and Bin Yuan, “Analyzing the shielding effect of a concrete wall inforced with steel plate using generalized surface integral equations,” IET Microw. Antennas Propag. vol.3, Issue 5, pp.728-735, Aug. 2009.

70. Gaobiao Xiao, Junfa Mao, “Generalized transition matrix for arbitrarily shaped scatterers with composite structures,” IEEE Trans. Electromagn. Compat., vol. 51, no.2, pp.401-405, May,2009.

71. C. Chen, L. Yang, Y. Lu, G. Xiao, and Y. Zhang, “Assessment of optical absorption in carbon nanotube photovoltaic device by electromagnetic theory,” IEEE Trans. Nanotechn., vol.8, no.3, pp.303-313, May 2009.

72. Gaobiao Xiao, Junfa Mao and Bin Yuan, “A generalized surface integral equation formulation for analysis of complex electromagnetic systems,” IEEE Trans. Antennas Propagat., vol.57, no.3, pp.701-710, Mar. 2009.

73. G. M. Yang, R. H. Jin, G. B. Xiao, C. Vittoria, V. G. Harris, and N. X. Sun, “Ultra wide band (UWB) antennas with multiresonant split-ring loops,” IEEE Trans. Antennas Propagat., vol.57, no.1, pp.256-260, Jan. 2009.

74. Gaobiao Xiao, Junfa Mao and Bin Yuan, “A generalized transition matrix for arbitrarily- shaped scatterers or scatterer groups,” IEEE Trans. Antennas Propagat., vol.56, no.12, pp.3723-3732, Dec. 2008.

75. G. M. Yang, R. Jin, J. Geng, X. Huang, G. Xiao, “Ultra-wideband bandpass filter with hybrid quasi-lumped elements and defected ground structure,” IET Microwav. Antennas Propagat., vol.1, Issue 3, pp.733-736, June 2007.

76. G. M. Yang, G. B. Xiao, R. Jin, J. Geng, W. He and M. Ding, “Design of ultra-wideband bandpass filter based on defected ground structure,” Microwave and Optical Technology Letters. vol. 49, no. 6, pp.1374-1377, June 2007.

77. Gaobiao Xiao, and K. Yashiro, “An improved algorithm of constructing potentials from Cauchy data and its application in synthesis of nonuniform transmission lines,” IEEE Trans. Microwave Theory Tech., vol.50, no.8, pp.2025-2028, Aug. 2002.

78. Gaobiao Xiao, and K. Yashiro, “On the design of a dual-mode ring resonator formed by nonuniform transmission lines,” Int. J. Electron., vol.89, no.4, pp.337-345, 2002.

79. Gaobiao Xiao, and K. Yashiro, “An efficient algorithm for solving Zakharov-Shabat inverse scattering problem,” IEEE Trans. Antennas Propagat., vol.50, no.6, pp.807-811, June 2002.

80. Gaobiao Xiao, and K. Yashiro, “Impedance matching for complex loads through nonuniform transmission lines,” IEEE Trans. Microwave Theory Tech., vol.50, no.6, pp.1520-1525, June 2002.

81. Gaobiao Xiao, K. Yashiro, Ning Guan and S. Ohkawa, “Application of an inverse problem for symmetric periodic potentials,” SIAM Journal on Scientific Computing., vol. 23, no.3, pp.1042-1049, Sep. 2001.

82. Gaobiao Xiao, K. Yashiro, Ning Guan and S. Ohkawa, “An effective method for designing nonuniformly coupled transmission-line filters,” IEEE Trans. Microwave Theory Tech., vol.49, no.6, Part 1, pp.1027-1031, June 2001.

83. Gaobiao Xiao, K. Yashiro, Ning Guan and S. Ohkawa, “A new numerical method for synthesis of arbitrarily terminated lossless nonuniform transmission lines,” IEEE Trans. Microwave Theory Tech., vol.49, no.2, pp.369-376, Feb. 2001.