物理学院

物理学导师

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地址：吉林省长春市卫星路 7089号(东)、7186号(南) 7989号

超快光物理

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光学| 超快光物理| 凝聚态物理| 理论与计算物理|

姓名：林景全（博导）

学历：博士

职称：教授

研究方向：飞秒激光应用，极紫外光刻技术，阿秒-纳米高时空分辨显微技术

邮箱：linjingquan@cust.edu.cn

主要学习、工作经历

教育：
1985年9月----1989年7月，长春光机学院，光学物理系，激光专业，工学学士
1991年9月----1994年4月，长春光机学院，光学物理系，光学专业，理学硕士
1995年9月---1999年2月，中科院长春光机所，应用光学国家重点实验室，理学博士
工作：
1999年3月----2000年6月，中科院物理研究所，光物理实验室，博士后
2000年7月---2002年6月，日本电话电报公司，基础学研究所，研究人员
2002年7月---2005年3月，独立行政法人日本产业技术综合研究所，研究人员
2005年4月---2009年3月，慕尼黑大学物理系，研究人员
2009年4月----至今，长春理工大学，物理学院，教授

主要教学工作

承担课程：本科生《专业概论》、《科研与学术论文》，研究生《超快光物理》、《表面等离激元物理》

主要科研工作

主要科研工作成果：

科研项目：

1.超高时空能量分辨技术在微纳器件物理中的应用，科技部国家重点研发计划课题， 2023.01-2027.12，主持

2. 极紫外光刻掩模缺陷检测与补偿技术的研究，国家自然基金委区域联合基金重点项目，2023.01-2026.12，主持

3. 超快局域等离激元动力学演化的高时空分辨研究，国家自然基金委重大研究计划（培育），2019.01-2021.12，主持

4. 极紫外光刻掩模白板缺陷检测技术研究，国家自然基金委面上项目，2022.01-2025.12，主持

5. 基于等离子激元纳米结构的光辐射电子脉冲产生及控制，国家自然基金委面上项目，2018.01-2021.12，主持

6. 超快激光与纳米结构作用的动力学研究，科技部国家重点基础发展计划（973计划）项目课题， 2013.01-2017.12，主持

7. 极小时空尺度等离激元场的相干控制研究，国家自然基金委面上项目，2014.01-2017.12，主持

8. 输出波长6.7nm稀土元素Gd靶激光等离子体极紫外光源的研究，国家自然基金委面上项目，2012.01-2015.12，主持

9. 飞秒激光等离子体通道传导射频电磁能的研究，国家自然基金委面上项目，2011.01-2013.12，主持

10. 利用共振等离子激元对光场的提高产生相干极紫外辐射，国家自然基金委面上项目，2010.01-2012.12，主持

科研获奖：

1.飞秒激光等离子体丝的应用基础研究，吉林省科学技术奖，二等奖，2018.11，排名：1/7

2.激光诱导击穿光谱技术及其应用基础研究，吉林省自然科学奖，三等奖，2020.11，排名：2/5

学术论文：

1.Song H., Lang P*., Ji B., Peng S., Song X., & Lin Jingquan*. (2024). All-Optical Control of Ultrafast Switching between the Hybridized Plasmonic Fields of Au Nanorod Dimer in fs-nm Scale with Dispersed Femtosecond Laser. The Journal of Physical Chemistry Letters. 15(31), 7924-1930.

2 Lun Wang, Boyu Ji*, Yang Xu, Peng Lang , Qi Shao, Siyuan Peng, Ju Yang, Zhenlong Zhao, Xiaowei Song and Jingquan Lin*, (2024) Mitigating Interface Damping of Metal Adhesion Layers of Nanostructures through Bright-Dark Plasmonic Mode Coupling, APPLIED PHYSICS LETTERS, 125(19)

3. Hu, H., Ji, B*., Wang, L., Lang, P., Xu, Y., Zhao, Z., Song, X., & Lin, Jingquan*. (2023). High spatiotemporal resolved imaging of ultrafast control of nondiffracting surface plasmon polaritons. Nanophotonics, 12(12), 2121-2131.

4. Xu, Y., Qin, Y., Lang, P., Ji, B., Song, X., & Lin, Jingquan*. (2022). Flexible manipulation of plasmon dephasing time via the adjustable Fano asymmetric dimer. Photonics Research, 10(10), 2267-2277.

5. Wen Zhilin, Xie Zhuo*, Zhang Qijin, Wang Shaokang, Pu Zhenwei, Song Xiaowei, Dou Yinping, Li Bochao, Pan Qikun, Chen Fei, Zhao Chongxiao, Xing Yan, Lin Jingquan*. Enhancement of spectral performance in gadolinium-based BEUV sources by supplying pre-formed plasma with cavity-confined targets[J]. Optics Express, 2025, 33(4): 8806-8818.

6. Wen Zhilin, Xie Zhuo*, Wang Chaohui, Zhang Qijin, Song Xiaowei, Dou Yinping, Li Bochao, Pan Qikun, Chen Fei, Zhao Chongxiao, Lin Jingquan*. Spectral behavior and expansion dynamics of Gd plasma generated by dual-pulse laser irradiation[J]. Optics Express, 2024, 32(21): 37779-37791.

7. Wang Lun, Ji Boyu*, Xu Yang, Lin Jingquan *et al. Wide-range control of surface plasmon dephasing time by the strong coupling between surface lattice and gap modes[J]. Optics Express, 2025, 33(4).

8.Guiqi Wang, Peng Lang, Yulu Qin, Boyu Ji*, Xiaowei Song, and Jingquan Lin*, Nanoscale photoemission from a focused propagating surface plasmon. Physical Review B 104, 155432 (2021)

9.Guiqi Wang, Xiaowei Song, Meiling Jiang, Peng Lang, Boyu Ji*, Zheyu Fang, Jingquan Lin*,Fano resonance enhanced multiphoton photoemission from single plasmonic nanostructure excited by femtosecond laser，Physical Review B 103, 155403 (2021)

10.Yulu Qin, Boyu Ji, Xiaowei Song*, Jingquan Lin*, Ultrafast spatiotemporal control of directional launching of surface plasmon polaritons in a plasmonic nano coupler, Photonics Research,9(4),514 (2021)

11.Ziyuan Liu, Ning Pan, Haiyan Tao*, Jingqan Lin* Effects of frost formation on the ice adhesion of micro-nano structure metal surface by femtosecond laser, Journal of Colloid and Interface Science, Vol. 603, 1233-242, 2021

12.Ziyuan Liu, Fengwei Ye, Haiyan Tao*, Jingqan Lin* Anisotropic ice adhesion of micro-nano structured metal surface by femtosecond laser, Langmuir, Vol.37(31),9571-9576, 2021

13. Yajun Guo, Jianji Wang, Xiaowei Song and Jingquan LIN*, Gaseous pre-lattice assisted supercontinuum enhancement of femtosecond laser filamentation, Physics of Plasmas, Vol 28(7),072303,2021

14.Yulu Qin, Boyu Ji, Xiaowei Song*, Jingquan Lin*, Disclosing transverse spin angular momentum of surface plasmon polaritons through independent spatiotemporal imaging of its in-plane and out-of-plane electric field components，Photonics Research, 8, 1042(2020);

15.Yang Xu, Yulu Qin*, Boyu Ji, Xiaowei Song, Jingquan Lin*, Polarization manipulated femtosecond localized surface plasmon dephasing time in an individual bowtie structure, Optics Express, 28, 19023 (2020);

16.Zhenlong Zhao，Peng, Lang; Yulu, Qin; Boyu, Ji; Xiaowei, Song*; Jingquan Lin* ，Distinct spatiotemporal imaging of femtosecond surface plasmon polaritons assisted with the opening of the two-color quantum pathway effect, Optics Express，28(13) 19023(2020)

17. Yajun Guo, Jianji Wang and Jingquan LIN*，Manipulation of femtosecond laser filamentation by a gaseous lattice，Optics Express, 28, 37362 (2020)

18.Qin Yulu, Song Xiaowei*, Ji Boyu, XuYang and Lin Jingquan*, Demonstrating a two-dimensional-tunable surface plasmon polariton dispersion element using photoemission electron microscopy，Optics Letters, 29, 2935 (2019);

19.Lang Peng, Song Xiaowei, Ji Boyu, Tao Haiyan, Dou Yinping, Gao Xun, Hao Zuoqiang, Lin Jingquan*, Spatial- and energy-resolved photoemission electron from plasmonic nanoparticles in multiphoton regime，Optics Express, 27, 6878 (2019);

20.Lang Peng, Ji Boyu, Song Xiaowei*, Dou Yinping, Tao Haiyan, Gao Xun, Hao Zuoqiang and Lin Jingquan*, Ultrafast switching of photoemission electron through quantum pathways interference in metallic nanostructure，Optics Letters, 43, 5721 (2018);

21.Boyu Ji, Xiaowei Song, Yinping Dou, Haiyan Tao*, Xun Gao, Zuoqiang Hao and Jingquan Lin* Two-color multiphoton emission for comprehensive reveal of ultrafast plasmonic field distribution, New J. Phys. 20 (2018) 073031

22.Alemayehu Nana Koya; Jingquan Lin*, Charge transfer plasmons: Recent theoretical and experimental developments, Applied Physics Review, 2017, 4：021104,

23.Boyu Ji, Jiang Qin, Haiyan Tao, Zuoqiang Hao* and Jingquan Lin*, Subwavelength imaging and control of ultrafast optical near-field under resonant- and off-resonant excitation of bowtie nanostructures, New J. Phys. 18 (2016) 093046

24.Acner Camino, Shaowei Li, Zuoqiang Hao*, and Jingquan Lin*，Spectroscopic determination of NO2, NO3, and O3 temporal evolution induced by femtosecond filamentation in air，Applied Physics Letters, 106, 021105 (2015)

25.Acner Camino, Zuoqiang Hao*, Xu Liu, and Jingquan Lin*，High spectral power femtosecond supercontinuum source by use of microlens array, Optics Letters, 39, 747(2014);

26.Mostafa Alshershby, Yu Ren, Jiang Qin, Zuoqiang Hao, and Jingquan Lin*, Diagnosis of femtosecond plasma filament by channeling microwaves along the filament, Applied Physics Letters, 102, 204101 (2013)

27.Yu Ren, Mostafa Alshershby, Zuoqiang Hao, Zhenming Zhao, and Jingquan Lin*, Microwave guiding along double femtosecond filaments in air, Physical Review E 88, 013104(2013)

28.Acner Camino, Zuoqiang Hao*, Xu Liu, and Jingquan Lin*, Control of laser filamentation in fused silica by a periodic microlens array, Optics Express, 28, 7908 (2013);

29.Kaimin Guo, Jingquan Lin,*, Zuoqiang Hao, Xun Gao, Zhenming Zhao, Changkai Sun, and Baozeng Li, Triggering and guiding high-voltage discharge in air by single and multiple femtosecond filaments, Optics Letters, 37, 259 (2012);

30.Haiyan Tao, Jingquan Lin*, Zuoqiang Hao, Xun Gao, Xiaowei Song, Changkai Sun, and Xin Tan, Formation of strong light-trapping nano- and microscale structures on a spherical metal surface by femtosecond laser filament, Applied Physics Letters, 100, 201111 (2012)

授权发明专利：

1.一种含有飞秒激光等离子丝的双线传输装置，2011-10-25，专利号：ZL201110326225.2，排名：2/4

2.基于飞秒激光在硅表面功能微纳米材料的制备装置和方法， 2011-9-21 专利号：ZL201110280812.2，排名：1/3

3.一种控制金属表面纳米结构尺寸和分布的方法，2013-7-25，专利号：ZL201310315665.7，排名：2/5

4.一种控制金属表面微纳米结构尺寸和分布的方法, 2017-07-04, 专利号ZL201310315665.7,排名2/5

5.一种利用玻璃掺杂钆靶获得高光谱纯度极紫外光源的方法，2018-07-20, 专利号ZL201510141270.9,排名1/4

6.激光诱导产生等离子体墙屏蔽冲击波传播的装置和方法, 2018-12, 专利号ZL201610411901.9,排名3/3

7.一种利用激光超连续辐射的测量反射率的装置和方法, 2019-04-03, 专利号ZL201510827722.9 ,排名5/5

8.飞秒激光在透明光学介质中的阵列成丝装置和方法, 2019-05-10, 专利号ZL201510789648.6,排名5/5

9.一种利用TiO2粒子阵列辅助飞秒激光超衍射极限加工的方法, 2019-12-31, 专利号ZL201710348325.2,排名4/5

10.一种用于实现可调谐表面等离激元分频的方法和系统, 2019-4-18, 专利号ZL2019 1 0349586.5,排名2/2

11.一种采用飞秒激光加工多种纳米图案的方法, 2021-11-28, 专利号ZL2019 1 1189281.9,排名3/4

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