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潘岳 副教授

发布时间:2025-03-26文章来源: 浏览次数:

基本资料

联系方式panyue.89@163.com; panyue@qfnu.edu.cn

实验室地址:曲阜师范大学激光研究所209

相关链接:https://orcid.org/0000-0003-2814-2038


教育经历

2005/09-2008/06济宁市第一中学高中

2008/09-2012/06山东大学物理学院本科

2012/09-2017/06南开大学物理科学学院博士研究生


工作经历

2017/07-2019/12:曲阜师范大学物理工程学院讲师硕士生导师

2020/01-今:曲阜师范大学物理工程学院副教授硕士生导师


教学任务

主要从事物理系和光电信息科学与工程系的教学任务。


研究方向

无衍射光束研究;光场调控与矢量光场的设计和生成;光场和光束的传播和聚焦等性质的深入研究;光信息编码与远距离传输;光子角动量的量子效应和应用;光学微操纵(光镊)、光学成像和光学微加工的研究和应用;光与微结构和材料的相互作用的研究;新型光学元器件的设计与制作等。


课题组学生情况

招收物理学和光电信息工程专业研究生,已毕业硕士研究生7人,其中4人前往双一流高校攻读物理学/光学/光学工程博士学位。


教学科研奖励

2014/06  南开大学学术科研先锋

2014/09  中国物理学会2014年秋季学术会议优秀论文奖

2016/02  南开大学博士研究生科研创新计划重点项目优秀结题

2016/12  博士研究生国家奖学金

2016/12  天津市大学生创新创业奖学金

2017/06  南开大学研究生优秀毕业生

2019/09  中国物理学会2019年秋季学术会议优秀墙报奖

2019/09  APL photonics期刊:编辑推荐论文

2020/05  中国激光杂志社2019年度主编推荐奖

2020/06 国家级大学生创新创业训练计划项目结题(指导教师)

2020/12  Chinese Physics Letters期刊:编辑推荐论文

2021/07  2021年度曲阜师范大学优秀研究生指导教师

2021/07  曲阜师范大学研究生圣地英才奖(指导教师)

2022/06  2022年度曲阜师范大学优秀研究生指导教师

2022/07  曲阜师范大学研究生圣地英才奖(指导教师)

2022/07  Optics Express期刊:编辑推荐论文

2022/12 2022年山东省优秀硕士学位论文(指导教师)

2023/12  2023年度曲阜师范大学优秀研究生指导教师

2024/06  曲阜师范大学本科生优秀学士学位论文(指导教师)

2024/07  2024年度曲阜师范大学优秀研究生指导教师

2024/07  曲阜师范大学研究生圣地英才奖(指导教师)

科研项目

1. 山东省自然科学基金面上项目,2023.09-2026.12,主持

2. 山东省高等学校青年创新团队课题,2023.01-2025.12,主持(团队带头人)

3. 中国博士后科学基金面上项目,2020.11-2022.09,主持

4. 国家自然科学基金青年项目,2018.01-2021.12,主持

5. 山东省高等学校科技计划项目,2018.04-2021.04,主持

6. 国家自然科学基金面上项目,2025.01-2028.12,参与

7. 国家重大科学研究计划,2012.01-2016.12,参与

8. 国家自然科学基金重点项目,2016.01-2020.12,参与

9. 国家自然科学基金面上项目,2017.01-2020.12,参与

10. 国家自然科学基金面上项目,2014.01-2017.12,参与

国家发明专利

1. 一种偏振沿庞加莱球上任意圆形路径变化的矢量光场生成装置2023-12-8中国ZL202111437104.5

2. 基于光束叠加原理的复杂空间结构光场生成装置及方法,2024-10-1中国ZL202311486402.2

3. 一种基于马赫-曾德尔干涉仪的矢量光场生成装置及方法2025-1-21国,ZL202411280559.4

4. 信息编码和解码方法、装置、设备和计算机可读介质2023-11-24中国ZL202211024866.7

5. 一种基于飞秒激光的菲涅尔波带片阵列制作方法及应用,2019-2-26中国ZL201610720185.2

6. 一种基于动态调控的焦场轨迹制作微结构的装置,2018-1-30中国ZL201510860470.X

第一/通讯作者论文

1. Ya-Ning Kong, Guang-Bo Zhang, Tian-Fei Zhao, Qing-Lu Li, Guo-Dong Tan, Xu-Zhen Gao, and Yue Pan, “Propagation engineering of the complementary Gaussian-Airy beam,” Optics & Laser Technology 184, 112517 (2025).

2. Tian-Fei Zhao, Qing-Lu Li, Ya-Ning Kong, Guo-Dong Tan, Xu-Zhen Gao, and Yue Pan, “Nondiffracting and self-healing properties of a multi-periodic full Poincaré beam,” Optics Letters 49, 7110-7113 (2024).

3. Guang-Bo Zhang, Xu-Zhen Gao, Qing-Lu Li, Ya-Ning Kong, Tian-Fei Zhao, Shi-Tong Xu, Rende Ma, Jia-Qi Lü, and Yue Pan, “The manipulation of spin angular momentum for binary circular Airy beam during propagation,” APL Photonics 9, 096114 (2024).

4. Yue Pan, Fan Yang, Guang-Bo Zhang, Guo-Dong Tan, Shi-Tong Xu, Rende Ma, Zhongxiao Man, and Xu-Zhen Gao, “Fibonacci vortex beam and its application in manipulating spiral transverse energy flow,” Physical Review A 110, 063533 (2024).

5. Xu-Zhen Gao, Qing-Lu Li, Tian-Fei Zhao, Ya-Ning Kong, Guo-Dong Tan, and Yue Pan, “Flexible focal array engineering with a binary array vector optical field,” Optics Express 32, 37182-37192 (2024).

6. Xue-Feng Sun, Xu-Zhen Gao, Guang-Bo Zhang, Fan Yang, Jin-Jin Liu, Rende Ma, Zhongxiao Man and Yue Pan, “The appearance and annihilation of the spin angular momentum for the multi-polar vector optical field in the focal plane,” APL Photonics 8, 056101 (2023).

7. Guang-Bo Zhang, Xu-Zhen Gao, Xue-Feng Sun, Rende Ma, Ying-Hua Wang and Yue Pan, “Airy-Gaussian vector beam and its application in generating flexible optical chains,” Optics Express 31, 30319-30331 (2023).

8. Yue Pan, Xue-Feng Sun, Guang-Bo Zhang, Qing-Lu Li, Ya-Ning Kong, Tian-Fei Zhao and Xu-Zhen Gao, “Two-dimensional quasi-periodic diffraction properties of the scalar and vector optical fields,” Photonics 10, 1045 (2023).

9. Jia-Hao Zhao, Yue Pan, Xu-Zhen Gao, Rende Ma, Zhongxiao Man, Zhi-Cheng Ren, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Five-dimensional Poincaré sphere system for representing azimuthally varying vector optical fields,” Physical Review A 106, 023506 (2022).

10. Xu-Zhen Gao, Peng-Cheng Zhao, Jia-Hao Zhao, Xue-Feng Sun, Jin-Jin Liu, Fan Yang, and Yue Pan, “Sinusoidal-amplitude binary phase mask and its application in achieving an ultra-long optical needle,” Optics Express 30, 26275-26285 (2022).

11. Xue-Feng Sun, Yue Pan, Guang-Bo Zhang, Zhongxiao Man, and Xu-Zhen Gao, “Manipulating transverse spin angular momentum with symmetrically modulated hybridly polarized vector optical field,” Photonics 9, 817 (2022).

12. Meng-Shuai Wang, Xu-Zhen Gao, Jia-Hao Zhao, Xue-Feng Sun, Yue Pan, and Yunjie Xia, Flexibly modulated Poincaré sphere vector optical field in input and focal planes,Optics Express 29, 21071-21083 (2021).

13. Xu-Zhen Gao, Jia-Hao Zhao, Peng-Cheng Zhao, Xue-Feng Sun, Fan Yang, Jin-Jin Liu, and Yue Pan, Purely transverse spin angular momentum modulated by the singularity phase,Journal of Optics 23, 115603 (2021).

14. Peng-Cheng Zhao, Xu-Zhen Gao, Jia-Hao Zhao, Yue Pan, and Zhongxiao Man, “Achieving ultra-long optical needles with a duplex vector optical field and parabolic hybrid mask,” Journal of the Optical Society of America A 38, 1823-1829 (2021).

15. Xu-Zhen Gao, Jia-Hao Zhao, Meng-Shuai Wang, Jin-Jin Liu, Guang-Bo Zhang, Yue Pan, “Bipolar-variant spin angular momentum and its evolution in a tight focusing process,” Physical Review A 102, 063514 (2020).

16. Yue Pan, Zhi-Cheng Ren, Ling-Jun Kong, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Theoretical analysis based on mirror symmetry for tightly focused vector optical fields”, Optics Express 28, 23416-23432 (2020).

17. Xu-Zhen Gao, Peng-Cheng Zhao, Xue-Feng Sun, Fan Yang, Yue Pan, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Highly purified transversely polarized optical needle generated by the hybridly polarized vector optical field with hyperbolic symmetry,” Journal of Optics 22, 105604 (2020).

18. Xu-Zhen Gao, Meng-Shuai Wang, Jia-Hao Zhao, Peng-Cheng Zhao, Xia Zhang, Yue Pan, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Generation and Tunable Focal Shift of the Hybridly Polarized Vector Optical Fields with Parabolic Symmetry,” Chinese Physics Letters 37, 124201 (2020).

19. Yue Pan, Xu-Zhen Gao, Rende Ma, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Tunable azimuthally non-uniform orbital angular momentum carried by vector optical fields,” Chinese Optics Letters 18, 122601 (2020).

20. Yue Pan, Xu-Zhen Gao, Xu Zhang, Jia-Hao Zhao, Peng-Cheng Zhao, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Diffraction properties and applications of spatially structured optical fields with fractal amplitude masks”, Applied Optics 58, 8631-8637 (2019).

21. Yue Pan, Meng-Shuai Wang, Xu-Zhen Gao, Xu Zhang, Ren De Ma, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Energy transfer of the tightly focused hybridly polarized vector optical fields with elliptic symmetry in free space”, Journal of the Optical Society of America A 36, 1898-1907 (2019).

22. Yue Pan, Xu-Zhen Gao, Guan-Lin Zhang, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Spin angular momentum density and transverse energy flow of tightly focused kaleidoscope-structured vector optical fields”, APL Photonics 4, 096102 (2019).  

23. 潘岳,丁剑平,王慧田. “新型矢量光场调控:简介、进展与应用(特邀综述),”光学学报39, 11-36 (2019).

24. Yue Pan, Xu-Zhen Gao, Meng-Qiang Cai, Guan-Lin Zhang, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Fractal vector optical fields,” Optics Letters 41, 3161-3164 (2016).

25. Yue Pan, Xu-Zhen Gao, Zhi-Cheng Ren, Xi-Lin Wang, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Arbitrarily tunable orbital angular momentum of photons,” Scientific Reports 6, 29212 (2016).

26. Yue Pan, Zhi-Cheng Ren, Sheng-Xia Qian, Xu-Zhen Gao, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Uniformly elliptically-polarized vector optical fields,” Journal of Optics 17, 035616 (2015).

27. Yue Pan, Yongnan Li, Si-Min Li, Zhi-Cheng Ren, Ling-Jun Kong, Chenghou Tu, and Hui-Tian Wang, “Elliptic-symmetry vector optical fields,” Optics Express 22, 019302-019313 (2014).

28. Yue Pan, Yongnan Li, Zhi-Cheng Ren, Yu Si, Chenghou Tu, and Hui-Tian Wang, “Parabolic-symmetry vector optical fields and their tightly focusing properties,” Physical Review A 89, 035801 (2014).

29. Yue Pan, Yongnan Li, Si-Min Li, Zhi-Cheng Ren, Yu Si, Chenghou Tu, and Hui-Tian Wang, “Vector optical fields with bipolar symmetry of linear polarization,” Optics Letters 38, 3700-3703 (2013).

30. Yue Pan, Si-Min Li, Lei Mao, Ling-Jun Kong, Yongnan Li, Chenghou Tu, Pei Wang, and Hui-Tian Wang, “Vector optical fields with polarization distributions similar to electric and magnetic field lines,” Optics Express 21, 16200-16209 (2013).


合作论文

31. Xu-Zhen Gao, Yue Pan, Meng-Qiang Cai, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Hyperbolic-symmetry vector fields,” Optics Express 23, 032238-32252 (2015).

32. Xu-Zhen Gao, Yue Pan, Si-Min Li, Dan Wang, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Vector optical fields broken in the spatial frequency domain,” Physical Review A 93, 033834 (2016).

33. Meng-Qiang Cai, Ping-Ping Li, Dan Feng, Yue Pan, Sheng-Xia Qian, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Microstructures fabricated by dynamically controlled femtosecond patterned vector optical fields,” Optics Letters 41, 1474-1477 (2016).

34. Yu Si, Ling-Jun Kong, Yu Zhang, Zhi-Cheng Ren, Yue Pan, Chenghou Tu, Yongnan Li and Hui-Tian Wang, “Spatial-Variant Geometric Phase of Hybrid-Polarized Vector Optical Fields,” Chinese Physics Letters 4, 14 (2017).

35. Xu-Zhen Gao, Yue Pan, Guan-Lin Zhang, Meng-Dan Zhao, Zhi-Cheng Ren, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Redistributing energy flow of the tightly focused ellipticity-variant vector optical fields,” Photonics Research. 5, 640-648 (2017).

36. Xu-Zhen Gao, Yue Pan, Meng-Dan Zhao, Guan-Lin Zhang, Yu Zhang, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Focusing behavior of the fractal vector optical fields designed by fractal lattice growth model,” Optics Express 26, 1597-1614 (2018).

37. Meng-Dan Zhao, Xu-Zhen Gao, Yue Pan, Guan-Lin Zhang, Chenghou Tu, Yongnan Li, and Hui-Tian Wang, “Image encryption based on fractal-structured phase mask in fractional Fourier transform domain,” Journal of Optics 20, 045703 (2018).

38. Guan-Lin Zhang, Xu-Zhen Gao, Yue Pan, Meng-Dan Zhao, Dan Wang, Hai-Han Zhang, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Inverse method to engineer uniform-intensity focal fields with arbitrary shape,” Optics Express 26, 16782-16796 (2018).

39. Rende Ma, Rongmei Kong, Yunjie Xia, Xiaoping Li, Xiaodong Wen, Yue Pan, and Xinyong Dong, “Microfiber polarization modulation in response to protein induced self-assembly of functionalized magnetic nanoparticles,” Applied Physics Letters 113, 033702 (2018).

40. Dan Wang, Yue Pan, Jia-Qi Lü, Ping-Ping Li, Gui-Geng Liu, Meng-Qiang Cai, Yongnan Li, Chenghou Tu, and Hui-Tian Wang, “Controlling optical field collapse by elliptical symmetry hybrid polarization structure,” Journal of the Optical Society of America B 35, 2373-2381 (2018).

41. Rende Ma, Yan Li, Hongzhong Cao, Xiaoping Li, Yue Pan, Zhongxiao Man, Xinyong Dong, “Wavefront Splitting Fiber Mach-Zehnder Interferometer Modulated by the White Light Fraunhofer Diffraction,” Journal of Lightwave Technology 37, 4216-4221 (2019).

42. Rende Ma, Xiao-Ping Li, Hong-Zhong Cao, Yue Pan, Zhongxiao Man, and Yun-Jie Xia, “Alkali etched fiber Mach–Zehnder interferometer with compact sensor head,” Applied Optics 60(32), 10186-10190 (2021).

43. Hao-Tian Zhang, Xiao-Ping Li, Hong-Zhong Cao, Yue Pan, Wen-Di Wu, Yun-Jie Xia, and Rende Ma, “Hyperspectral measurement of dispersion in aqueous solution and its effect on ultra-sensitive interferometer,” Optics Express 31(24), 40758-40764 (2023).

44. Hao-Tian Zhang, Xiao-Ping Li, Yue Pan, Hong-Zhong Cao, Yun-Jie Xia, and Rende Ma, “Echelon grating refractive index sensor,” Optics Letters 49(8), 1868-1871 (2024).

45. Hao-Tian Zhang, Xiao-Ping Li, Hong-Zhong Cao, Yue Pan, Yun-Jie Xia, and Rende Ma, “Tunable and Stable Refractive Index Sensor Working Near Dispersion Turning Point,” IEEE Sensors Journal 24(11), 17677-17685 (2024).

46. Shi-Tong Xu, Jun-Xing Fan, Zhan-Qiang Xue, Jian-Di Li, Ying-Hua Wang, Yue Pan, Hong-Zhong Cao, Rende Ma, Dan Lu, Hui-Fang Zhang, and Long-Qing Cong, “Terahertz polarization conversion and asymmetric transmission based on a liquid crystal integrated EIT metasurface, Optics Letters 49(17), 4891-4894 (2024).



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