GRADUATE EDUCATION
吴永静
系部:光电科学与技术学部
招生方向:085408光电信息工程
办公电话:18353113859(微信同号)
电子邮件:yongjingwu@sdlaser.cn
通讯地址:山东省科学院激光研究所济南研究中心
- 个人简历
- 研究方向
- 学术兼职
- 科研项目
- 代表性论文
- 教学工作
- 荣誉奖励
-
工作经历
2023.08-至今:助理研究员,齐鲁工业大学,光电学部
教育背景
2018.09-2023.06:北京工业大学,光学工程,博士
2015.09-2018.06:山东师范大学,物理学,硕士
2011.09-2015.06:山东师范大学,物理学,学士 -
1.激光技术与器件
2.超快激光技术
3.非线性光学
4.超快激光非线性动力学 -
纵向课题
1.基于***中红外飞秒激光器研究,国家自然科学基金青年项目,30万,主持,在研
2.基于人工神经网络***,国家自然科学基金国际(地区)合作与交流项目,15万,主持,在研
3.***,中华人民共和国科学技术部“小而美”科技援助项目,240万,子课题负责,在研
4.面向***的全光纤高功率飞秒激光器,济宁市重点研发计划,技术负责人,在研
5.***,山东省激光装备创新创业共同体项目,135万,本人位次3,在研
6.全固态中红外可调谐激光器研发,齐鲁工业大学科教产国际合作项目,2024-2026,62万,总技术负责人,在研技术研发
1.宽光谱超快光纤激光器研发,企业技术研发,33万,主持,结题
2.超快光纤激光器研制,企业技术研发,19万,主持,结题 -
期刊论文
1.D. Li, R. Zhai, Y. Wu*, et al., The Study of Soliton Mode-Locked and Bound States in Erbium-Doped Fiber Lasers Based on Cr2S3 Saturable Absorbers, Materials, 2025, 18, 864.
2.D. Li, R. Zhai, Y. Wu*, Formation dynamics of gain-guided dissipative soliton molecules via multiple evolution processes in an all-fiber laser based on a Cr2S3 saturable absorber, Optics Communications, 2025, 604: 132770
3.Y. Wu, C. Yao, C. Wang, et al.,High-energy 1.96-2.4 μm tunable Raman soliton generation in all-silica-fiber Tm-doped amplifier, IEEE Photonics Technology Letters, 2023, 35(7):361-364
4.Y. Wu, C. Yao, X. Wang, et al.,Watt-level 2.8 μm ultrashort pulse generation from an all-fiber Er:ZBLAN fiber amplifier. Optics and Laser Technology, 2022, 156: 108499.
5.Y. Wu, Z. Zou, C. Wang, et al., Broadly tunable and passively mode-locked operations of Yb3+,Gd3+:SrF2 laser, IEEE Journal of Selected Topics in Quantum Electronics, 2019, 25:1100405.
6.Y. Wu, S. Pang, Y. Zu, et al., Silver nanorods absorber for passively Q-switched Nd,Gd:CaF2 laser, Chinese Optics Letters, 2018, 100: 294-297.
7.Y. Wu, C. Zhang, J. Liu, et al., Silver nanorods absorbers for Q-switched Nd:YAG ceramic laser, Optics and Laser Technology, 2017, 97:268 -271
8.F. Zhang., Y. Wu, et al., Mode locked Nd3+ and Gd3+ co-doped calcium fluoride crystal laser at dual gain lines, Optics and Laser Technology, 2018, 100:294-297.
9.K. Wang, C. Yao, Y. Wu, et al., Laser-interfered studies in HgCdTe infrared focal plane array detector by high -repetition-rate mid-infrared supercontinuum fiber laser, Optics and Laser Technology, 2023, 163:109433.
10.Y. Zu, C. Zhang, Y. Wu, et al., Graphene oxide for diode-pumped Tm:YLF passively Q-switched laser at 2 μm,Chinese Optics Letters, 2018, 16(2): 020013.
11.Z. Chu, H. Zhang, Y. Wu, et al., Passively Q-switched laser based on gold nanobipyramids as saturable absorbers in the 1.3 µm region, Optics Communications, 2018, 406:209-213.
12.L. Yang, C. Yao, Y. Wu, et al., Theoretical Study on Multi-range Pulse width Tuning in a Dissipative Soliton Laser Mode-locked by a Dirac Semimetal, AIP Advances, 2023, 13(4):045215.
13.H. Gao, Q. Yang , ..., Y. Wu, et al., Direct generation of visible short-pulse vortex beam in a blue LD-pumped electro-optically Q-switched Pr: YLF laser, Optics and Laser Technology, 2025, 186,112740
14.H. Yu, Z. Yang, ..., Y. Wu, et al., Anisotropic Ta2PdSe6 modulator for polarization-controllable pulsed lasers in the mid-infrared band, Optics Express, 2025, 33(21),43747.
15.H. Xu, X. Cao, ..., Y. Wu, et al.,Compact diode-pumped continuous-wave and passive Q-switched Tm:GdScO3 mixed sesquioxide crystal laser around 2.1 μm, Infrared Physics & Technology, 2025, 151, 106117.
16.X. Wang., C. Yao, ... , Y. Wu, et al., All-fiber high-power supercontinuum laser source over 3.5 μm based on germania-core fiber, Optics Letters, 2021, 46(13).
17.Z. Zou, Y. He, ..., Y. Wu, et al. Photoluminescence property and laser performance in Yb-doped Sr1-xGdxF2+ x single crystals, Optical Materials Express, 2018, 8(7): 1747-1753.
18.S. Pang, F. Ma, ..., Y. Wu, et al., Highly efficient continuous-wave laser operation of LD-pumped Nd,Gd:CaF2 and Nd,Y:CaF2 crystals, Laser Physics Letters, 2018, 15(5): 055802.
19.X. Wang, C. Yao, ..., Y. Wu, et al., High-Power All-Fiber Supercontinuum Laser Based on Germania-Doped Fiber, IEEE Photonics Technology Letters, 2021, 33(23):1301-1304.
20.杨颖,宗梦雨,...,吴永静等,基于钕钆双掺氟化钙晶体的调谐和双波长锁模激光器. 中国激光, 2019, 46 (7).
21.王络,姚传飞,...,吴永静等,用于3.5 μm双波长泵浦Er:ZBLAN光纤激光器快速仿真的算法优化, 中国激光, 2021, 48(11).会议报告
1.高阶耗散孤子分子形成中引起的光学流氓波,第八届光学青年科学家学术年会,2025.09, 青岛.
2.Femtosecond pulse generation and Raman soliton frequency shift in mid-infrared fiber lasers,中白科技创新年系列活动暨中国(山东)—白俄罗斯青年科学家交流大会,2024.12,济南.
3.基于Cr2S3的掺铒光纤激光器孤子锁模与束缚态动力学研究,第十九届全国激光技术与光电子学学术会议,2024.06,青岛.
4.High-energy 2.8-μm ultrashort pulses generation in an Er:ZBLAN fiber amplifier, 2022第二届先进光学与光子学工程研究国际学术会议,2022.12,北京.
5.High-efficiency fusion splicing of mid-infrared special fibers with the silica fibers, Photonics & Electromagnetics Research Symposium(2019), 2019.12, 厦门.专利
1.一种双波长飞秒光纤激光器,发明专利
2.基于掺钬氟化铟光纤的2-5μm宽光谱光纤光源,发明专利
3.基于频移拉曼孤子的级联泵浦3.5微米全光纤飞秒放大器,发明专利
4.一种基于多谱段中波红外皮秒全光纤激光器的干扰系统,发明专利
5.一种激光增益介质及其制备方法、黄绿光激光器,发明专利
6.一种可调谐光纤激光器及其控制方法,发明专利
7.一种基于DMD无掩膜光刻加工装置及控制方法,发明专利
8.基于镨镱共掺氟化铟增益光纤的2-5μm宽光谱光纤光源,实用新型专利
9.基于红移拉曼孤子的3-5微米飞秒光纤放大器,实用新型专利
10.一种全光纤侧面泵浦的中红外波段光纤合束器,实用新型专利 -
本科生课程
《激光技术与应用》(48学时)
指导研究生
1. 2023级硕士:李东(协助指导)
2. 2025级硕士:宗庆庆(协助指导)
3. 2025级硕士:谢英杰(协助指导) -
2025年,指导学生参加大学生创新训练计划项目,推荐国家级立项
