程文雍

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发布时间:2025年02月26日 08:22
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职务 职称 教授、博士生导师
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邮箱 cwy@sdu.edu.cn

职称:教授、博士生导师

邮箱:cwy@sdu.edu.cn

研究领域:高功率激光技术,晶体器件物理


个人简历

程文雍,承担国家重大专项课题10余项,发表SCI论文30余篇,第一完成人获授权发明专利7项。

开发的光学元件损伤测试技术应用于20余家科研院所和企业的光学元件损伤阈值检测;研制的高功率、高光束质量、多波段激光器应用于近20家科研院所和企业。

培养的研究生多就职于华为、移动、激光技术研发企业,或参军,继续读博等。


学习与工作

2009.06  毕业于山东大学信息科学与工程学院光学工程专业,获工学博士学位;

               博士期间,在中国工程物理研究院激光聚变研究中心联合培养;

2009.07-2011.11  清华大学精密仪器系光学工程专业博士后;

2011.12-2019.07  山东大学光学高等研究中心,历任讲师、副教授;

2019.08-今  山东大学晶体材料研究院,历任副教授、教授。


代表性文章

1) Guoshun Li, Junjie Yuan, Xinyue Zhang, Jing Wang*, Wenyong Cheng**. A Three-Level Carrier Dynamics Model of TeSe2-Based Saturable Absorption for Stable Q-Switched Yb-Doped Fiber Lasers.Journal of Lumincescence, 294, 121882, 2026.

2) Shuai Zhou, Junjie Yuan, Houwen Yang, Wenyong Cheng*. High efficiency near TEM00 mode compact 355 nm ultraviolet laser. Journal of Optics, 28, 035507, 2026.

3) Junjie Yuan, Houwen Yang, Wenyong Cheng*. Differential sub-picosecond ultraviolet output from LiB3O5 versus β-BaB2O4 crystals under different frequency conversion conditions. Journal of Optics, 28, 015502, 2026.

4) Shuai Zhou, Shouqian Liu, Junjie Yuan, Yuting Ouyang, Houwen Yang, Wenyong Cheng*.High-power hundred-nanosecond 532 nm laser employing a dual-rod configuration for cavity length extension and conjugate compensation. Applied Optics,65(4): 1085-1091,2026

5) Junjie Yuan, Houwen Yang, Zhengping Wang, Wenyong Cheng*. Enhanced optical limiting properties in short wavebands: a comparative study of Ti3AlCN and Ti3CN nanosheets. Optics Express, 33(19),39585-39596,2025.

6) Junjie Yuan, Houwen Yang, Zhengping Wang, Wenyong Cheng*. 2D V2C and V2AlC layers: ascendant deep ultraviolet optical limiting materials. Journal of Materials Chemistry C, 13, 8702, 2025.

7) Junjie Yuan, Houwen Yang, and Wenyong Cheng*, Diode-pumped Nd:YVO4 system for hundreds nanosecond high-power high beam quality laser generation. Applied Optics, 64, 1454-1458, 2025

8) Junjie Yuan, Houwen Yang, Guowei Liu, Chuanrui Zhao, Zhengping Wang, Wenyong Cheng*. Blue LD pumped passively Q-switched PrYLF lasers generation using 2D germanene nanosheets.Optics Communications, 579, 131547, 2025.

9) Junjie Yuan, Guowei Liu, Chuanrui Zhao, Zhengping Wang, Houwen Yang, Wenyong Cheng*. Nonlinear absorption properties in gold nanoparticles for passively Q‑switched laser and optical limiting applications. Journal of Nanoparticle Researc, 26, 213, 2024.

10) Jiayu Zhang, Dazhen Li, Wenyong Cheng*, Haikun Zhang. Amplification and frequency quadrupling of picosecond long duration burst-mode laser. Optics&Laser Technology, 158, 108848, 2023.

11) Junjie Yuan, Houwen Yang, Yuting Ouyang, Shuai Zhou, Zhengping Wang, Wenyong Cheng*. High efficiency high beam quality third harmonic generation of hundreds femtosecond laser by employing a delay line and LiB3O5 crystals. Optical Materials, 145, 114472, 2023.

12) Houwen Yang, Dazhen Li, Chen Song, Wenyong Cheng*.Efficient third-harmonic generation of broadband picosecond radiation by employing spectrally noncritical phase-matching KDP crystal and cascaded LBO crystals.Optics & Laser Technology, 141, 107105, 2021.

13) Chen Song, Yun Wang, Houwen Yang, Dazhen Li, Wenyong Cheng*. High efficiency 355 nm laser by employing a flat-flat cavity with improved harmonic beam quality. Laser Physics Letters, 18, 085004, 2021.

14) Chen Song, Dazhen Li, Houwen Yang, Wenyong Cheng*. High efficiency high beam quality 1064 nm and 532 nm dual-wavelength laser switched by a quartz crystal. Optics Communications, 478, 126378, 2021.


科研项目

1)国家重大专项课题,187万,2025-2026;

2)国家重大专项课题,60万,2024-2025;

3)省重点研发计划课题,200万,2024-2027;

4)横向课题,中物院八所,228万,2026-2026;

5)横向课题,中科院上光所,153万,2024-2026;

6)横向课题,中物院八所,89.4万,2026-2026;

7)横向课题,航天科工九部,39.3万,2021-2021;

8)横向课题,中科院空天院,29.1万,2023-2023;

9)横向课题,中电科五十四所,28.6万,2021-2021;

10)横向课题,光至科技,25万,2021-2022;

11)横向课题,中物院八所,19.4万,2025-2026;

12)横向课题,国防科大,18万2021-2022;

13)横向课题,中物院八所,17.5万,2023-2023


专利

1)一种在微电子机械制造工艺中防止立体微结构侧壁底切刻蚀的方法,发明专利,专利号:ZL 2020 1 1413936.9,授权公告日:2025年01月07日

2)一种皮秒长脉冲串等幅放大装置及方法.发明专利,专利号:ZL 2022 1 0626883.1,授权公告日:2024年09月17日

3)一种端面泵浦用半导体激光器光纤耦合输出光斑检测装置及方法。发明专利,专利号:ZL 2021 1 121220294.8,授权公告日:2023年07月07日

4)一种激光损伤阈值测试中光斑有效面积准确测定方法。发明专利,专利号:ZL 2022 1 0076355.3,授权公告日:2023年03月24日

5)一种基于普克尔盒的无相位调制脉冲拾取方法及装置。发明专利,专利号:ZL 2021 1 0916590.2,授权公告日:2022年09月13日

6)一种空间通信用光电一体化接收天线及其工作方法。 发明专利,专利号:ZL 2019 1 0084346.7,授权公告日:2020年10月02日

7)一种晶体激光预处理与点对点损伤测试装置及测试。发明专利,专利号:ZL 2016 1 1032322.X,授权公告日:2019年05月07日