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舒国响

     舒国响       办公室:917   办公室电话:26651310    邮箱:gxshu@szu.edu.cn

       2017年6月毕业于电子科技大学物理电子学院,获得工学博士。2015年至2017年赴英国Univsersity of Strathclyde进行访问研究18个月。2017年9月加入深圳大学电子科学与技术学院任助理教授。研究领域包括大功率毫米波放大器(带状注行波管和回旋行波管)、太赫兹振荡器(扩展互作用振荡管和返波管)、毫米波低损介质复介电常数测试、毫米波功率合成放大器、毫米波耦合器、毫米波模式变换器以及毫米波天线等。一作及合作发表学术论文30多篇,其中SCI论文近20篇,包括IEEE Trans. Electron Devices、Physics of Plasmas、J Infrared Milli Terahz Waves和Review of Scientific Instruments等SCI期刊。国际学术会议口头报告4次,申请国防/中国发明专利4个。以学生主研身份参与过核高基国家重大专项、国际交流及合作、国家863计划和国家自然科学基金等多个科研项目。获得博士研究生国家奖学金、电子科技大学-中电集团奖学金和华为专项奖学金等多项奖学金,被评为电子科技大学优秀毕业生、优秀学生干部。

一、主要研究方向
1.大功率毫米波放大器/振荡器;
2.太赫兹辐射器;
3.介质材料复介电常数测试;
4.毫米波天线/纳米结构天线;
5.毫米波无源器件(功分器、耦合器和模式变换器等)。

二、代表性论文
[1]G. X. Shu*, W. He, L. Zhang, H. Yin, J. P. Zhao, A. W. Cross, A. D. R. Phelps. Study of a 0.2THz extended interaction oscillator driven by a pseudospark-sourced sheet electron beam. IEEE Transactions Electron Devices, 63(12): 4955-4960 (2016)
[2]G. X. Shu, J. X. Wang, G. Liu, L. Y. Yang, Y. Luo, S. F. Wang. An improved slow-wave structure for the sheet-beam traveling-wave tube. IEEE Transactions Electron Devices, 63(5): 2089-2096 (2016)
[3]G. X. Shu*, J. X. Wang, G. Liu, et al. Design and microwave test of an ultra-wideband input/ output structure for sheet beam travelling wave tubes. Review of Scientific Instruments, 86(6): 064703-1-064703-7(2015)
[4]G. X. Shu*, Y. Luo, Q. S. Zhang, et al. Millimeter wave measurement of the low-loss dielectric in vacuum electronic devices with reflection-type hemispherical open resonator. J. Infrared Milli Terahz Waves, 36(5): 556-568(2015)
[5]G. X. Shu*, J. X. Wang, G. Liu, et al. Theoretical analysis and design optimization of wideband input/output branch waveguide couplers for a sheet beam traveling wave tube. Journal of Electromagnetic Waves and Applications, 54(3): 2002-2013(2015)
[6]G. X. Shu, J. X. Wang, G. Liu, et al. Design and cold test of a novel broadband output coupler for sheet beam travelling tube. 15th IEEE International Vacuum Electronics Conference, Beijing, 2015, 1-2
[7]G. X. Shu, W. He, L. Zhang, et al. Preliminary design of a G-band extended interaction oscillator driven by a sheet electron beam. IET Colloquium on Millimetre-wave and Terahertz Engineering & Technology, London, 1-3(2016)
[8]G. X. Shu, W. He, L. Zhang, et al. Design of a kW-level sub- terahertz oscillator. UK-Europe-China Workshop on mm-waves and THz Technologies, Qingdao, 1-2(2016)
[9]G. X. Shu, W. He, L. Zhang, et al. Preliminary design of a 0.36 THz sheet electron beam extended interaction oscillator. National Vacuum Electronics Conference. Lancaster, 1-2(2016)
[10]G. X. Shu, Q. S. Zhang, Y. Luo, et al. Low-loss dielectric measurement using reflection type hemispherical open resonator. National Vacuum Electronics Conference. Glasgow, 1-2(2015)
[11]J. X. Wang, G. X. Shu, G. Liu, et al. Ultra-wideband coalesced-mode operation for a sheet-beam traveling-wave tube. IEEE Transactions Electron Devices, 63(1): 504-511(2016)
[12]G. Liu, J. X. Wang, G. X. Shu, et al. RF Design, thermal analysis, and cold test of a Ku-band continuous wave sheet beam traveling wave tube. IEEE Transactions Electron Devices, 62(11): 3844-3850(2015)
[13]J. X. Wang, G. Liu, G. X. Shu, et al. Design and microwave measurement of a broadband compact power coupler for sheet beam travelling wave tubes. IEEE Transactions Electron Devices, 63(2): 814-818(2016)
[14]Y. Wang, G. Liu, G. X. Shu, et al. Design and measurement of a TE13 input converter for high order mode gyrotron travelling wave amplifiers. Physics of Plasmas, 23(3): 033101-1-033101-6 (2016)
[15]L. Y. Yang, J. X. Wang, G. X Shu, et al. Design and Measurement of a nonlinear-curve directional coupler for sheet beam traveling wave tube. IEEE Transactions Electron Devices, 63(9):3733-3739(2016)
[16]J. X. Wang, Q. Z. Tian, X. X. Li, G. X. Shu, et al. Theory and experiment investigate of a 400-kW Ku-band Gyro-TWT with mode selective loss loading structure. IEEE Transactions Electron Devices, 64(2):550-555(2017) 
[17]Y. Wang, L. Wang, G. Liu, G. X. Shu, et al. Wideband circular TE21 and TE01 Mode converters with same exciting topologies. IEEE Transactions Electron Devices, 63(10): 4088-4095 (2016) 
[18]J. Zhao, H. Yin, L. Zhang, G. X. Shu, et al. Influence of the electrode gap separation on the pseudospark-sourced electron beam generation. Physics of Plasmas, 23(3): 073116-1-073116-6(2016)
[19]J. Zhao, H. Yin, L. Zhang, G. X. Shu, et al. Advanced post-acceleration methodology for pseudospark-sourced electron beam. Physics of Plasmas, 24(2), 023105-1-023105-5 (2017)
[20] G. Liu, J. X. Wang, Y. Luo, G. X. Shu. Multi-mode coupling analysis of a sub-terahertz band planar corrugated bragg reflector. Chin. Phy. B, 24(11): 118403-1-118403-8 (2015)

三、专利
[1]王建勋,舒国响,刘国,杨利亚,罗勇,“一种带状注行波管或返波管的输入耦合装置”,国防发明专利,ZL 201518000516.1(已授权)
[2]王建勋,舒国响,刘国,杨利亚,罗勇,“一种用于带状注行波管的输入耦合装置”,国防发明专利,ZL 201518000518.0(已授权)
[3]刘国,王建勋,杨利亚,舒国响,“一种宽频带工作带状束输入输出耦合结构”,国防发明专利,ZL 201518000517.6(已授权)
[4]王建勋,杨利亚,刘国,舒国响,罗勇,“一种带状注器件的曲线耦合输入输出装置”,中国发明专利,CN104851767A(已授权)

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