一、基本情况

伍计鹏，男，博士研究生（博士后），讲师，硕士研究生导师，湖南新化人，湖南省光学学会理事，株洲市2023年“小荷行动”专项计划入选者。目前已主持湖南省自然科学基金青年项目1项、湖南省教育厅一般科研项目1项。目前以第一作者在Physical Review A、Optics Express、Results in Physics、Chinese Optics Letters等国内外SCI期刊发表论文18篇，担任包括Optics Express、Journal of Applied Physics、Journal of Physics D: Applied Physics等在内的多种权威SCI期刊的审稿专家。

Email: wujipeng@hut.edu.cn

二、受教育经历

2012年9月-2017年6月，湖南大学，博士研究生

2008年9月-2012年6月，湖南大学，本科

三、研究工作经历

2020年6月-至今，湖南大学，博士后

2017年9月-至今，湖南工业大学，轨道交通学院，讲师

四、主要研究方向与工作业绩

研究方向包括但不局限于：

1、自旋光子学：光子自旋霍尔效应的产生、性质与应用；

2、光场调控：表面等离激元实现光场增强效应；

3、外尔半金属等相关磁性材料的磁光增强及调控效应；

4、新型光电子材料与器件；

5、微结构光子器件设计及应用等。

目前承担的主要科研项目：

1、湖南省自然科学基金青年项目，批准号：2023JJ40265，执行年限：2023/1-2025/12，在研，主持；

2、湖南省教育厅优秀青年项目，批准号：23B0571，执行年限：2023/12-2026/12，在研，主持；

3、湖南省教育厅一般项目，批准号：20C0602，执行年限：2020/9-2022/9，已结题，主持；

4、株洲市小荷行动专项，执行年限：2023/11-2025/11，在研，主持。

五、主要论文

近三年发表论文：

1. Wu Jipeng, Zeng Rongzhou, Liang Jiaojiao, Huang Di, Dai Xiaoyu, and Xiang Yuanjiang, Spin-dependent and tunable perfect absorption in a Fabry-Perot cavity containing a multi-Weyl semimetal. Optics Express, 2023, 31(19).

2. Wu Jipeng, Liang Jiaojiao, Huang Di, Xiang Yuanjiang, and Dai Xiaoyu, Tunable enhanced transmitted group delays of circular polarization enabled by resonant tunneling in Ag/multi-Weyl semimetal/Ag trilayers. Results in Physics, 2023, 52(10).

3. Wu Jipeng, Zeng Rongzhou, Liang Jiaojiao, Huang Di, Xiang Yuanjiang, and Dai Xiaoyu, Faraday rotation enhancement and characteristic of the Weyl nodes separation and tilt degree by resonant tunneling. Journal of Applied Physics, 2023, 113(23).

4. Wu Jipeng, Xiang Yuanjiang, and Dai Xiaoyu, Enhanced and tunable Imbert-Fedorov shift based on epsilon-near-zero response of Weyl semimetal. Chinese Physics B, 2023, 32 (03).

5. Wu Jipeng, Xiang Yuanjiang, and Dai Xiaoyu, Tunable broadband compact optical isolator based on Weyl semimetal. Results in Physics, 2023, 46 (10).

6. Wu Jipeng, Jiang Leyong, Zeng Rongzhou, Liang Jiaojiao, Dai Xiaoyu, and Xiang Yuanjiang, Determination of tilt degree and Weyl-node separation by the spatial Imbert-Fedorov shift near the Brewster angle. Physical Review A, 2022, 105(2).

7. Wu Jipeng, Jiang Leyong, Dai Xiaoyu, and Xiang Yuanjiang, Tunable and enhanced Faraday rotation induced by the epsilon-near-zero response of a Weyl semimetal. Physical Review A, 2022, 105(4).

8. Wu Jipeng, Zeng Rongzhou, and Wu Xueping, Enhanced and tunable magneto-optical Kerr effects based on epsilon-near-zero response of Weyl semimetal. Journal of Applied Physics, 2022, 132(2).

9. Wu Jipeng, Xiang Yuanjiang, and Dai Xiaoyu, Enhanced and tunable asymmetric Imbert–Fedorov and Goos–Hänchen shifts based on epsilon-near-zero response of Weyl semi-metal. Journal of Physics D: Applied Physics, 2022, 55(39).

10. Wu Jipeng, Zeng Rongzhou, and Wu Xueping, Enhanced and tunable transmitted group delays based on epsilon-near-zero response of Weyl semimetal. Optical Engineering, 2022, 61(11).

11. Wu Jipeng, Wu Xueping, and Zeng Rongzhou, Tunable epsilon-near-zero response induced ultrathin perfect absorber with incident angle linear to thickness of film. Optical Engineering, 2022, 61(7).

12. Wu Jipeng, Tang Jie, Zeng Rongzhou, Dai Xiaoyu, and Xiang Yuanjiang, Tunable coherent perfect absorption in three-dimensional Dirac semimetal films. Chinese Optics Letters, 2021, 19(8).

13. Wu Jipeng, Zeng Rongzhou, Liang Jiaojiao, Jiang Leyong, and Xiang Yuanjiang, Tunable GH shifts in Weyl thin films on a Weyl substrate. Journal of Applied Physics, 2021, 129(15).

14. Wu Jipeng, Liang Yanzhao, Guo Jun, Jiang Leyong, Dai Xiaoyu, and Xiang Yuanjiang, Tunable and Multichannel Terahertz Perfect Absorber Due to Tamm Plasmons with Topological Insulators. Plasmonics, 2020, 15(1).

六、讲授课程

本科生课程：《电子技术2》、《电磁场与电磁波B》