付玉喜-中国科学院大学-UCAS

研究领域

强场超快激光技术

高能量高功率超短近红外、中红外、远红外及太赫兹光源研发；

少周期光源研发，载波包络相位稳定技术研发；

小型化全相干紫外及软X射线源研发，高能量高功率阿秒光源研发。

招生信息

长期招收博士/硕士研究生，从事强场超快激光技术、小型化高亮度阿秒光源(1 阿秒 = 10^-18秒 )、原子分子中超快动力学过程、高能量远红外光源开发等方面的国际最前沿研究工作，只要你勤奋好学、踏实肯干、团队合作意识强，欢迎加入我们这个极具创新和充满活力的研究团队。

招生专业

070207-光学
080300-光学工程

招生方向

超强超快激光技术，阿秒科学与技术
强场激光物理
超快动力学

教育背景

2005-09--2010-07   中国科学院上海光学精密机械研究所   博士
2005-09--2006-07   中国科学技术大学   博士课程学习
2001-09--2005-07   同济大学   学士

学历

博士

学位

光学博士

工作经历

工作简历

2022-02~现在, 中国科学院西安光学精密机械研究所，基础科研部, 副部长
2021-05~现在, 中国科学院西安光学精密机械研究所，阿秒科学与技术研究中心, 常务副主任
2019-10~现在, 中国科学院西安光学精密机械研究所, 研究员
2016-04~2019-10,日本理化学研究所, 研究员（Research Scientist）
2014-04~2016-03,日本理化学研究所, 博士后
2011-04~2014-03,日本理化学研究所, 特别博士后
2010-09~2011-03,日本理化学研究所, 博士后

专利与奖励

奖励信息

（1） Osaka University Kondo Prize, 研究所（学校）, 2018
（2） RIKEN Baiho Award, 研究所（学校）, 2018
（3） RIKEN Incentive Award, 研究所（学校）, 2018
（4） Best poster prize in the 9th Asian Workshop on Generation and Application of Coherent XUV and X-ray Radiation, 其他, 2018

专利成果

[1] 黄沛, 袁浩, 付玉喜, 曹华保, 王虎山, 王屹山, 赵卫. 一种双色超短激光脉冲特性测量方法及测量装置. CN: CN114001823A, 2022-02-01.

[2] 曹华保, 付玉喜, 黄沛, 王虎山, 袁浩, 刘鑫. 一种载波包络相位稳定可控的宽带光源及其产生方法. CN: CN112821170A, 2021-05-18.

[3] 曹华保, 付玉喜, 王虎山, 黄沛, 刘鑫, 袁浩. 基于非周期光谱相位跃变的色散管理方法及色散管理装置. CN: CN112666719A, 2021-04-16.

出版信息

发表论文

[1] 雷冰莹, 张理奕, 林华, 付玉喜, 赵卫, 侯洵. 超快科学研究进展及发展建议. 科技导报[J]. 2023, 41(10): 9-30, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7486270&detailType=1.
[2] 王虎山, 曹华保, 皮良文, 黄沛, 王向林, 徐鹏, 袁浩, 刘鑫, 王屹山, 赵卫, 付玉喜. 阿秒脉冲产生和测量技术研究进展（特邀）. 光子学报[J]. 2021, 50(1): 9-33, http://lib.cqvip.com/Qikan/Article/Detail?id=7103907590.
[3] 付玉喜. 阿秒光源前沿科学与应用. 科学通报[J]. 2021, 66(8): 833-834, https://www.sciengine.com/doi/10.1360/TB-2020-1672.
[4] Fu, Yuxi, Nishimura, Kotaro, Suda, Akira, Midorikawa, Katsumi, Takahashi, Eiji J. Apparatus for generation of nanojoule-class water-window high-order harmonics. REVIEWOFSCIENTIFICINSTRUMENTS[J]. 2021, 92(6): [5] 袁浩, 曹华保, 王虎山, 刘鑫, 孙先伟, 王屹山, 赵卫, 付玉喜. 阿秒脉冲驱动激光发展现状及展望. 科学通报[J]. 2021, 66(8): 878-888, http://lib.cqvip.com/Qikan/Article/Detail?id=7104432970.
[6] Liu, Xin, Wang, Hushan, Cao, Huabao, Yuan, Hao, Huang, Pei, Wang, Yishan, Zhao, Wei, Fu, Yuxi, 曹华保. Dispersed pulses created by aperiodic binary spectral phase jump and applications for pulse shaping. OPTICSEXPRESS[J]. 2021, 29(8): 12319-12329, http://dx.doi.org/10.1364/OE.419450.
[7] 曹华保, 王虎山, 袁浩, 刘鑫, 黄沛, 王屹山, 赵卫, 付玉喜. 基于光参量放大的中红外飞秒光源进展（特邀）. 光子学报[J]. 2020, 49(11): 63-80, http://lib.cqvip.com/Qikan/Article/Detail?id=7103386892.
[8] Fu, Yuxi, Nishimura, Kotaro, Shao, Renzhi, Suda, Akira, Midorikawa, Katsumi, Lan, Pengfei, Takahashi, Eiji J. High efficiency ultrafast water-window harmonic generation for single-shot soft X-ray spectroscopy. COMMUNICATIONS PHYSICS[J]. 2020, 3(1): http://dx.doi.org/10.1038/s42005-020-0355-x.
[9] 程亚, 付玉喜. “纪念激光器发明60周年”专题导读. 光子学报[J]. 2020, 49(11): 5-6, http://lib.cqvip.com/Qikan/Article/Detail?id=7103386887.
[10] Xu, Lu, Nishimura, Kotaro, Suda, Akira, Midorikawa, Katsumi, Fu, Yuxi, Takahashi, Eiji J. Optimization of a multi-TW few-cycle 1.7-mu m source based on Type-I BBO dual-chirped optical parametric amplification. OPTICS EXPRESS[J]. 2020, 28(10): 15138-15147, http://dx.doi.org/10.1364/OE.392045.
[11] Xue, Bing, Tamaru, Yuuki, Fu, Yuxi, Yuan, Hua, Lan, Pengfei, Muecke, Oliver D, Suda, Akira, Midorikawa, Katsumi, Takahashi, Eiji J. Fully stabilized multi-TW optical waveform synthesizer: Toward gigawatt isolated attosecond pulses. SCIENCE ADVANCES[J]. 2020, 6(16): https://www.webofscience.com/wos/woscc/full-record/WOS:000528276800009.
[12] Fu Yuxi, Nishimura Kotaro, Xue Bing, Suda Akira, Midorikawa Katsumi, Takahashi Eiji J, Hein J, Butcher TJ. Generation of high-energy mid-infrared pulses via dual-chirped OPA. HIGH-POWER, HIGH-ENERGY, AND HIGH-INTENSITY LASER TECHNOLOGY IVnull. 2019, 11033: [13] Fu, Yuxi, Midorikawae, Katsumi, Takahashi, Fiji J. Dual-Chirped Optical Parametric Amplification: A Method for Generating Super-Intense Mid-Infrared Few-Cycle Pulses. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS[J]. 2019, 25(4): [14] 付玉喜. High-Energy and High Peak Power Infrared Femtosecond Pulses by Dual-Chirped Optical Parametric Amplification. IEEE Journal of Selected Topics in Quantum Electronics (JSTQE). 2019, [15] Fu, Yuxi, Xue, Bing, Midorikawa, Katsumi, Takahashi, Eiji J. TW-scale mid-infrared pulses near 3.3 mu m directly generated by dual-chirped optical parametric amplification. APPLIED PHYSICS LETTERS[J]. 2018, 112(24): https://www.webofscience.com/wos/woscc/full-record/WOS:000435451600005.
[16] 付玉喜. Generation of high-energy mid-infrared pulses at 3.3 μm by dual-chirped optical parametric amplification. OSA Technical Digest. 2018, [17] Yuxi Fu, Hua Yuan, Katsumi Midorikawa, Pengfei Lan, Eiji J Takahashi. Towards GW-Scale Isolated Attosecond Pulse Far beyond Carbon K-Edge Driven by Mid-Infrared Waveform Synthesizer. APPLIED SCIENCES[J]. 2018, 8(12): https://doaj.org/article/bfdc54335545411483bb6a97e56005d3.
[18] Fu, Yuxi, Midorikawa, Katsumi, Takahashi, Eiji J. Towards a petawatt-class few-cycle infrared laser system via dual-chirped optical parametric amplification. SCIENTIFIC REPORTS[J]. 2018, 8(1): https://www.webofscience.com/wos/woscc/full-record/WOS:000432274300017.
[19] 付玉喜. Generation of a 200-mJ class infrared femtosecond laser by dual-chirped optical parametric amplification. OSA Technical Digest. 2017, [20] Yuxi Fu, Eiji J Takahashi, Katsumi Midorikawa. Energy Scaling of Infrared Femtosecond Pulses by Dual-Chirped Optical Parametric Amplification. IEEE PHOTONICS JOURNAL[J]. 2017, 9(3): 1-8, https://doaj.org/article/2834129a0e90435c9f91f0f5407ba44b.
[21] 付玉喜. 100 mJ infrared femtosecond pulses generated by dual-chirped optical parametric amplification. IEEE. 2016, [22] 付玉喜. Stabilizing carrier-envelope phase of a low repetition rate laser using a hybrid reference pulse train. OSA Technical Digest. 2016, [23] Fu, Yuxi, Takahashi, Eiji J, Midorikawa, Katsumi. Indirect high-bandwidth stabilization of carrier-envelope phase of a high-energy, low-repetition-rate laser. OPTICS EXPRESS[J]. 2016, 24(12): 13276-13287, https://www.webofscience.com/wos/woscc/full-record/WOS:000378298400080.
[24] 付玉喜. Energy scalable high power infrared femtosecond pulses by dual-chirped optical parametric amplification. IEEE. 2015, [25] Fu, Yuxi, Takahashi, Eiji J, Zhang, Qingbin, Lu, Peixiang, Midorikawa, Katsumi. Optimization and characterization of dual-chirped optical parametric amplification. JOURNAL OF OPTICS[J]. 2015, 17(12): https://www.webofscience.com/wos/woscc/full-record/WOS:000366375700003.
[26] Takahashi, Eiji J, Fu, Yuxi, Midorikawa, Katsumi. Carrier-envelope phase stabilization of a 16 TW, 10 Hz Ti:sapphire laser. OPTICSLETTERS[J]. 2015, 40(21): 4835-4838, https://www.webofscience.com/wos/woscc/full-record/WOS:000364468600004.
[27] Fu, Yuxi, Takahashi, Eiji J, Midorikawa, Katsumi. High-energy infrared femtosecond pulses generated by dual-chirped optical parametric amplification. OPTICS LETTERS[J]. 2015, 40(21): 5082-5085, https://www.webofscience.com/wos/woscc/full-record/WOS:000364468600066.
[28] 付玉喜. Generation of few-mJ, two-cycle laser pulses with carrier-envelope phase stabilization. IEEE. 2013, [29] 付玉喜. Generating highly phase-matched isolated attosecond pulses with a carrier-envelope phase stabilized, TW-class, few-cycle laser. Journal of Physics. 2012, [30] 付玉喜. Generation of Highly Phase-Matched Isolated Attosecond Pulses Using Multi-mJ, Carrier-Envelope Phase Stabilized, Few-Cycle Laser Pulses. Springer Proceedings in Physics. 2012, [31] Fu Yuxi, Gao Hui, Chu Yu, Ni Jielei, Xiong Hui, Xu Han, Yao Jinping, Ceng Bin, Liu Weiwei, Cheng Ya, Xu Zhizhan, S. L. Chin. Control of filament branching in air by astigmatically focused femtosecond laser pulses. APPLIED PHYSICS B[J]. 2011, 103(2): 435-439, http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp=PARTNER_APP&SrcAuth=LinksAMR&KeyUT=WOS:000290725300025&DestLinkType=FullRecord&DestApp=ALL_WOS&UsrCustomerID=3a85505900f77cc629623c3f2907beab.
[32] Fu, Yuxi, Xiong, Hui, Xu, Han, Yao, Jinping, Zeng, Bin, Chu, Wei, Cheng, Ya, Xu, Zhizhan, Liu, Weiwei, Chin, See Leang. Generation of extended filaments of femtosecond pulses in air by use of a single-step phase plate. OPTICS LETTERS[J]. 2009, 34(23): 3752-3754, http://ir.siom.ac.cn/handle/181231/6386.
[33] Fu, Yuxi, Xiong, Hui, Xu, Han, Yao, Jinping, Yu, Yongli, Zeng, Bin, Chu, Wei, Liu, X, Chen, J, Cheng, Ya, Xu, Zhizhan. Phase-matched high-order harmonic generation in a gas cell with midinfrared femtosecond pulses. PHYSICAL REVIEW A[J]. 2009, 79(1): http://ir.siom.ac.cn/handle/181231/6384.
[34] Wang, Chen, Fu, Yuxi, Zhou, Zenghui, Cheng, Ya, Xu, Zhizhan. Femtosecond filamentation and supercontinuum generation in silver-nanoparticle-doped water. APPLIED PHYSICS LETTERS[J]. 2007, 90(18): http://dx.doi.org/10.1063/1.2736212.

科研活动

参与会议

（1）Energy scaling of sub-keV attosecond pulse driven by strong mid-infrared femtosecond laser    Yuxi Fu, Kotaro Nishimura, Bing Xue, Hua Yuan, Pengfei Lan, Katsumi Midorikawa, and Eiji J. Takahashi   2019-08-04
（2）Development and applications of TW-class infrared femtosecond laser   Yuxi Fu, Kotaro Nishimura, Hua Yuan, Pengfei Lan, Bing Xue, Akira Suda, Katsumi Midorikawa, and Eiji J. Takahashi   2019-02-08
（3）TW-class infrared femtosecond laser source and its applications   Yuxi Fu, Katsumi Midorikawa, and Eiji J. Takahashi   2018-10-16
（4）Towards gigawatt-scale attosecond soft x-ray pulse in the 'water window' region   2018-05-28
（5）High power mid-infrared laser by DC-OPA   2018-04-23
（6）Energy scaling of soft x-ray high harmonics and 'water window’ isolated attosecond pulses using a TW infrared femtosecond laser   2018-04-17
（7）High-energy infrared femtosecond laser: a promising driver for creating attosecond light bullets   2018-02-06
（8）High-energy Ultrafast IR Laser Pulses by Dual-chirped Optical Parametric Amplification   2016-05-10
（9）High-energy infrared pulses by dual-chirped optical parametric amplification   2015-08-16

指导学生

现指导学生

刘鑫博士研究生 070207-光学

马雅慧硕士研究生 085400-电子信息

程起硕士研究生 070207-光学

袁浩博士研究生 070207-光学

夏宇峰博士研究生 070207-光学

冯通宇硕士研究生 070207-光学

董殿宏硕士研究生 070207-光学