电子科学与工程学院
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| 导师代码: |
20226
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| 导师姓名: |
姚叶雷
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| 性 别: |
男 |
| 特 称: |
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| 职 称: |
副研究员
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| 学 位: |
工学博士学位
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| 属 性: |
专职 |
| 电子邮件: |
yeleiyao@uestc.edu.cn
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| 学术经历:
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2019/06-今 电子科技大学,电子科学与工程学院,大功率毫米波技术及应用;
2018/01-2019/01 University of Leeds,电子与电气工程学院,微波滤波器理论与技术;
2014/10-2015/04 香港城市大学,毫米波国家重点实验室,天线技术。
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| 个人简介:
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2019.06-今,电子科技大学电子科学与工程学院,副研究员。2013年和2019分别获电子科技大学学士和博士学位。主要从事微波毫米波器件及应用技术研究,包括大功率毫米波功率源的理论、数值计算、仿真、测试及设计软件开发等工作,以及大功率毫米波源配套无源器件、滤波器和天线技术等研究。获研究生教学成果二等奖1项,主讲研究生课程《电子回旋脉塞理论与技术》。Springer Nature旗下SCI期刊《Scientific Reports》编委,SCI期刊《Micromachines》青年编委。IEEE高级会员。近年来在IEEE Electron Device Letters、IEEE Transactions on Electron Devices、IEEE Transactions on Microwave Theory and Techniques、IEEE Antennas and Propagation Magazine、Journal of Infrared, Millimeter, and Terahertz Waves、Review of Scientific Instruments等领域权威期刊发表SCI论文50余篇(其中第一/通信作者19篇),第一发明人授权国家发明专利8项。
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| 科研项目:
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主持国家重大专项子课题、省部级实验室基金等项目共4项,主持经费超千万元;作为骨干成员承担国家重大重点项目9项(其中排名二4项),总经费过亿元。
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| 研究成果:
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[1]. Y. Yao et al., Experimental investigation of a hybrid gyrodevice operating as an amplifier and oscillator, IEEE Transactions on Electron Devices, 2025.
[2]. Y. Yao et al., Gain equalization technique for a broadband Ka-band gyrotron traveling-wave tube, IEEE Transactions on Electron Devices, 2025.
[3]. Z. Tang, Y. Yao*et al., High-isolation input coupler without cutoff section for a W-band confocal gyro-TWA, 2025 18th IEEE United Conference on Millimeter Waves and Terahertz Technologies (UCMMT), Nanjing, China, 2025.
[4]. X. Wu, Y. Yao* et al., Design of a high-efficiency 16 GHz, 110 kW continuous-wave gyrotron, 2025 18th IEEE United Conference on Millimeter Waves and Terahertz Technologies (UCMMT), Nanjing, China, 2025.
[5]. Y. Yao et al., Design and experimental results of a W-band gyro-TWA with the widest bandwidth, IEEE Electron Device Letters, 2024;
[6]. X Dai, Y. Yao*, et al., Design of 1.1T/300 mm Bitter-type magnet for gyro-traveling-wave tube with power consumption optimization theory, Review of Scientific Instruments, 2024;
[7]. B. Dai, Y. Yao*, et al., Design and experiment of an inverse magnetron injection gun for a Ka-band gyro-TWT with non-superconducting magnet, Physics of Plasmas, 2024;
[8]. Y. Yao*, et al, Design of an ultra-wideband G-band gyro-TWT with nonlinearly tapered circuit, 24th International Vacuum Electronics Conference (IVEC), 2023;
[9]. Y. Yao*, et al. Theoretical optimization and validation of a wideband gyro-TWT with curved-profile circuit, IEEE Transactions on Electron Devices, 2023;
[10]. Y. Yao*, et al. Simulation study on a planar quasi-optical waveguide circuit for a W-band gyro-TWT with stability improvement, IEEE Transactions on Electron Devices, 2023;
[11]. Y. Yao*, et al. Comparative study on the nonlinear theory and pic simulation of confocal gyro-TWAs, IEEE Transactions on Electron Devices, 2023;
[12]. Y. Yao*, et al. Study of the frequency self-modulation in gyro-TWT based on two Ku-band amplifiers, IEEE Transactions on Electron Devices, 2022;
[13]. Y. Yao*, et al. Design of magnetron injection gun and solenoid for G-band gyro-TWT based on collaborative optimization method, IEEE Transactions on Electron Devices, 2022;
[14]. B. Guan, Y. Yao*, et al. Theoretical and experimental study of gyro-TWT solenoids with displacement and tilt, IEEE Transactions on Electron Devices, 2022;
[15]. G. Liu, W. Jiang, Y. Yao, et al. High average power test of a W-band broadband gyrotron traveling wave tube, IEEE Electron Device Letters, 2022;
[16]. Y. Sun, Y. Yao*, et al. Design of an ultra-broadband meta-surface output window for W-band confocal gyro-Amplifiers, 23rd International Vacuum Electronics Conference (IVEC), 2022;
[17]. W. Li, Y. Yao*, et al. Study on 220-GHz confocal gyro-amplifier circuits with wedges-loaded mirrors, 23rd International Vacuum Electronics Conference (IVEC), 2022;
[18]. L. Liu, Y. Yao*, et al. Propagation characteristics of dielectric-loaded waveguide circuits for gyro-TWTs based on an automatic root-search algorithm, 46th IRMMW-THz, 2021;
[19]. Y. Li, R. Yan, Y. Yao*, et al. Analysis of phase characteristics of gyrotron traveling-wave tubes, IEEE Transactions on Electron Devices, 2020;
[20]. Y. Yao, et al. Analysis of oscillations in confocal gyrotron travelling-wave amplifiers, IEEE Transactions on Electron Devices, 2019;
[21]. Y. Yao, et al. Modal analysis and same-bandedge response optimization of 3-D lumped networks, 49th EuMC, 2019;
[22]. Y. Yao, et al. High-gain confocal gyro-TWAs with a nonuniform distributed circuit, IVEC, 2019;
[23]. Y. Yao, et al. Initial Investigation on diffractive-wave feedback mechanism of confocal gyro-TWAs, IEEE Electron Device Letters, 2018;
[24]. Y. Yao, et al. Experimental study on rf circuits of confocal gyrotron travelling-wave amplifiers, Journal of Infrared, Millimeter, and Terahertz Waves, 2018;
[25]. J. Wang, Y. Yao, et al. Broadband high-efficiency input coupler with mode selectivity for a w-band confocal gyro-TWA, IEEE Transactions on Microwave Theory and Techniques, 2018;
[26]. R. Yan, Y. Yao*, et al. Automatic hot-test system for high average/continuous-wave power gyro-TWTs, IEEE Transactions on Electron Devices, 2018;
[27]. Y. Yao, et al. HE04 mode exciters with flat transmission and high mode purity for confocal gyro-TWAs, IEEE Transactions on Electron Devices, 2018;
[28]. Y. Yao, et al. Broadband rectangular TEn0 mode exciter with H-plane power dividers for 100 GHz confocal gyro-devices, Review of Scientific Instruments, 2017;
[29]. Y. Yao, et al. Propagation characteristics of confocal waveguides based on spheroidal functions for a W-band gyro-TWT, IEEE Transactions on Electron Devices, 2017;
[30]. Y. Yao, et al. Broadband HE04 mode exciter for W-band confocal Gyro-TWA, IVEC, 2017;
[31]. Y. Yao, et al. A New Patch Antenna Designed for CubeSat: Dual feed, L/S dual-band stacked, and circularly polarized, IEEE Antennas and Propagation Magazine, 2016.
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| 专业研究方向:
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| 专业名称 |
研究领域/方向 |
招生类别 |
| 080900电子科学与技术 |
01微波毫米波理论与技术,03大功率微波毫米波技术,07太赫兹科学与技术 |
硕士学术学位 |
| 085400电子信息 |
01不区分研究方向 |
硕士专业学位 |
| 085401新一代电子信息技术(含量子技术等) |
01不区分研究方向 |
硕士专业学位 |
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