李文雪

国家自然科学基金优秀青年基金获得者，入选中组部“万人计划”青年拔尖人才。士在超快强场激光物理、高功率光学频率梳、钛宝石太瓦激光系统、新型全固化激光技术等方面取得了多项备受国际同行关注的创新研究成果。在Phys. Rev. Lett.、Appl. Phys. Lett.、Opt. Lett.、Opt. Express等国际知名期刊发表学术论文90余篇，获授权发明专利8项，获上海市科技进步二等奖、饶毓泰基础光学二等奖等，通过国家自然科学基金委中德科学中心遴选，作为优秀青年学者代表赴德国林岛参加“诺贝尔奖获得者大会”的学术交流，曾两次获得国家高技术863-XXX主题专家组授予的优秀课题。

超快激光科学与技术

1.国家自然科学基金基金，宽带高精度中红外双光梳光谱技术的研究

2.科技部重点研发专项课题，超快宽谱相干光场高速调制研究

3.国家自然科学基金优秀青年科学基金项，宽波段精密光谱测量物理与应用

4.科技部仪器开发专项课题，高精度光梳相干成像分析仪的应用与工程化开发

5.国家自然科学基金基金，前向反馈式飞秒光梳放大与相干合成

1.      Xing Zou^†, Chenglin Gu*, Menglin Zhang, Zhong Zuo, Daowang Peng, Yuanfeng Di, Lulu Tang, Yang Liu, Daping Luo, Chen Zhou, Songyang Li, Xingua Xu, Yang Liu and Wenxue Li*, 208-µs single-shot multi-molecular sensing with spectrum-encoded dual-comb spectroscopy, Optics Express, 29(7):27600-27611 (2021).

2.      Zhong Zuo^†, Chenglin Gu^†,*, Daowang Peng, Xing Zou, Yuanfeng Di, Lian Zhou, Daping Luo, Yang Liu, and Wenxue Li*, Broadband mid-infrared molecular spectroscopy based on passive coherent optical–optical modulated frequency combs, Photonics Research, 9(7):1358-1368 (2021).

3.      Jiangshuoxue Han^†, Yang Liu^†, Zejiang Deng, Gehui Xie, Daping Luo, Chenglin Gu, Lian Zhou, and Wenxue Li*, Optimizing noise characteristics of mode-locked Yb-doped-fiber laser using gain-induced RIN-transfer dynamics, High Power Laser Science and Engineering, 9(3): e36 (2021).

4.      张聪聪，刘洋*，谢戈辉，邓泽江，熊世萍，罗大平，李文雪*，吴斌，陈坤峰. 时域波形可编程的飞秒脉冲串掺镱光纤放大. 激光与光电子学进展, 58(23):1211013 (2021).

5.      Ge hui†, Yang Liu†, Lian Zhou, Zhiwei Zhu, Zejiang Deng, Daping Luo, Chenglin Gu, and Wenxue Li*. “Self-referenced frequency comb from a polarization-maintaining Er: fiber laser based nonlinear polarization evolution.” Results Phys., 22 103886 (2021).

6.      Zejiang Deng, Yang Liu*, Zhiwei Zhu, Daping Luo, Chenglin Gu, Lian Zhou, Gehui Xie, Wenxue Li*, “Ultra-precise optical phase-locking approach for ultralow noise frequency comb generation,” Opt. Laser Technol., 138 106906, (2021).

7.      Lian Zhou, Yang Liu, Haipeng Lou, Yuanfeng Di, Gehui Xie, Zhiwei Zhu, Zejiang Deng, Daping Luo, Chenglin Gu, Huaixi Chen, and Wenxue Li*, Octave mid-infrared optical frequency comb from Er:fiber-laser-pumped aperiodically poled Mg:LiNbO3, Optics Letters, 45(23):6458-6461 (2020).

8.      Chenglin Gu, Xing Zou, Zhong Zuo, Daowang Peng, Yuanfeng Di, Yang Liu, Daping Luo, and Wenxue Li*, Doppler velocimeter based on dual-comb absorption spectroscopy, Photonics Research, 8(12):1895-1903 (2020).

9.      Zhiwei Zhu, Yang Liu, Daping Luo, Chenglin Gu, Lian Zhou, Gehui Xie, Zejiang Deng and Wenxue Li*, Tunable optical frequency comb from a compact and robust Er:fiber laser, High Power Laser Science and Engineering, 8(e17):6 (2020).

10.    Chenglin Gu, Zhong Zuo, Daping Luo, Zejiang Deng, Yang Liu, Minglie Hu and Wenxue Li*, Passive coherent dual-comb spectroscopy based on optical-optical modulation with free running lasers, PhotoniX, 1(1):233-237 (2020).

11.    Lian Zhou, Yang Liu, Gehui Xie, Chenglin Gu, Zejiang Deng, Zhiwei Zhu, Cheng Ouyang, Zhong Zuo, Daping Luo, Bin Wu, Kunfeng Chen and Wenxue Li*, Mid-infrared optical frequency comb in the 2.7-4.0 μm range via difference frequency generation from a compact laser system, High Power Laser Science and Engineering, 8(4):e32 (2020).

12.    Chenglin Gu, Zhong Zuo, Daowang Peng, Yuanfeng Di, Xing Zou, Daping Luo, Yang Liu and Wenxue Li*, High-repetition-rate mid-IR femtosecond pulse synthesis from two mid-IR CW QCL-seeded OPAs, Optics Express, 28(19):27433-27442 (2020).

13.    Daping Luo, Yang Liu, Chenglin Gu, Zhiwei Zhu, Zejiang Deng, Lian Zhou, Yuanfeng Di, Gehui Xie, and Wenxue Li*, 130 W, 180 fs ultrafast Yb-doped fiber frequency comb based on chirped-pulse fiber amplification, Optics Express, 28(4):4817 (2020).

14.    赵翔，刘洋，周廉，欧阳诚，谢戈辉，罗大平，朱志伟，顾澄琳，李文雪*, 全正色散非线性放大环形镜保偏掺镱光纤激光器, 中国激光, 44(5):0508025 (2019).

15.    谢戈辉，刘洋，罗大平，朱志伟，邓泽江，顾澄琳，李文雪*，光纤光学频率梳, 自然杂志, 41(1):15-22 (2019).

16.    Zejiang Denga, Yang Liua, Cheng Ouyanga, Wenchao Zhanga, Chao Wangc, Wenxue Li*, Mutually coherent dual-comb source generated from a free-running linear fiber laser, Results in Physics, 14:102364 (2019).

17.    Chenglin Gu, Zhong Zuo, Daping Luo, Daowang Peng, Yuanfeng Di, Xing Zou, Liu Yang and Wenxue Li*, High-repetition-rate femtosecond mid-infrared pulses generated by nonlinear optical modulation of continuous-wave QCLs and ICLs, Optics Letters, 44(23):5848-5851 (2019).

18.    Lian Zhou, Yang Liu, Gehui Xie, Wenchao Zhang, Zhiwei Zhu, Cheng Ouyang, Chenglin Gu and Wenxue Li*, Generation of stretched pulses from an all-polarization-maintaining Er-doped mode-locked fiber laser using nonlinear polarization evolution, Applied Physics Express, 12:052017 (2019).

19.    Cheng Ouyang, Yang Liu, Zejiang Deng, Zhiwei Zhu, Lian Zhou, Daping Luo, ChenglinGu,Yagang Feng, Jiang Li and Wenxue Li*, Continuous-wave laser performance of 10at% Yb:YSAG transparent ceramics, Mater. Res. Express, 6:126211 (2019).

20.    Daping Luo, Yang Liu, Chenglin Gu, Chao Wang, Zhiwei Zhu, Wenchao Zhang, Zejiang Deng, Lian Zhou, Wenxue Li*, and Heping Zeng*, High-power Yb-fiber comb based on pre-chirped-management selfsimilar amplification, Applied Physics Letters 112, 061106 (2018).

21.    Chao Wang, Zejiang Deng, Chenglin Gu, Yang Liu, Daping Luo, Zhiwei Zhu, Wenxue Li*, and Heping Zeng, Line-scan spectrum-encoded imaging by dual-comb interferometry, Optics Letters 47, 1606 (2018).

22.    Wenchao Zhang, Yang Liu, Chao Wang, Zhiwei Zhu, Daping Luo, Chenlin Gu, and Wenxue Li, Ultrafast PM fiber ring laser mode-locked by nonlinear polarization evolution with short NPE section segments, Optics Express 26, 7934 (2018).

23.    Yang Liu, Chao Wang, Daping Luo, Chao Yang, Jiang Li, Lin Ge,Yubai Pan and Wenxue Li*, “Generation of 70fs broadband pulses in a hybrid nonlinear amplification system with mode-locked YbYAG ceramic oscillator” Journal Of Optics 19 125501(2017)

24.    Zhao Yu, Liu Qiang, Ge Lin, Wang Chao, Li Wenxue, Yang Chao, Wang Juntao, Yuan Lei, Xie Tengfei, Kou Huamin, Pan Yubai, Gao Qingsong, Bo Yong, Peng Qinjun, Xu Zuyan, Li Jiang, “Tape casting fabrication and properties of planar waveguide YAG/Yb:YAG/YAG transparent ceramics” Optics Materials 69 169-174 (2017).

25.    Yang Liu, Wenxue Li*, Daping Luo, Dongbi Bai, Chao Wang, and Heping Zeng, “Generation of 33 fs 93.5 W average power pulses from a third-order dispersion managed selfsimilar fiber amplifier,” Optics Express 24, 10939-10945 (2016).

26.    Kangwen Yang, Guoshen Zhu, Qiang Hao, Kun Huang, Julien Laurat, Wenxue Li, Heping Zeng, “Coherent Polarization Beam Combination by Microcontroller-Based Phase-Locking Method,” IEEE Photonics Technology Letters 28, 2129-2132 (2016)

27.    Daping Luo, Wenxue Li*, Yang Liu, Chao Wang, Zhiwei Zhu, Wenchao Zhang, and Heping Zeng，“High-power self-similar amplification seeded by a 1 GHz harmonically mode-locked Yb-fiber laser，”Applied Physics Express 9, 082702 (2016).

28.    Fengjiang Liu, Shuai Yuan, Zhong Zuo, Wenxue Li, Liang’en Ding and Heping Zeng*, “Laser filamentation induced bubbles and their motion in water,” Optics Express 24, 13258-13263 (2016).

29.    C. Wang, W. X Li, C. Yang, D. B Bai, J. Li, L. Ge, Y. B Pan, H. P Zeng, “Ceramic planar waveguide laser of non-aqueous tape casting fabricated YAG/Yb: YAG/YAG” Sci. Rep. 6, 31289(2016)

30.    Chao Wang, Wenxue Li*, Lang Li, Qiang Hao, Jian Zhao and Heping Zeng, “Femtosecond Er-doped fiber laser based on divided-pulse nonlinear amplification” Journal of Optics 18, 025503 (2016).

31.    Chao Wang, Wenxue Li*, Dongbi Bai, Jian Zhao, Jiang Li, Xuewei Ba, Lin Ge, Yubai Pan, and Heping Zeng，“Mode-Locked Composite YAG/Yb:YAG Ceramic Laser and High-Power Amplification,” IEEE Photonics Technology Letters 28, 433-436 ( 2016).

32.    Yuelong Fu, Jiang Li, Chao Wang, Tengfei Xie, Wenxue Li*, Lexiang Wu, Yubai Pan, “Fabrication and properties of highly transparent Yb:LuAG ceramics,” Journal of Alloys and Compounds 664, 595-601 (2016).

33.    Dongbi Bai, Wenxue Li, Xianghui Yang, Xuewei Ba, Jiang Li, Yubai Pan, and Heping Zeng, “Continuous-wave laser performance of non-aqueous tape casting fabricated Yb:YAG ceramics,” Optical Materials Express 5, 330-339 (2015).

34.    Xuling Shen, Boqu He, Jian Zhao, Yang Liu, Dongbi Bai, Kangwen Yang, Chao Wang, Geping Liu, Daping Luo, Fengjiang Liu, Qiang Hao, Wenxue Li*, and Heping Zeng, “Repetition rate stabilization of an erbium-doped all-fiber laser via opto-mechanical control of the intracavity group velocity,” Applied Physics Letters 106, 031117 (2015).

35.    Jian Zhao, Wenxue Li*, Dongbi Bai, Xuling Shen, Kangwen Yang, Xiuliang Chen, Jingxin Ding, and Heping Zeng，“Self-Referenced f -to-2 f Beat Note of a Period-Doubling Mode-Locked Yb-Fiber Laser,” IEEE Photonics Technology Letters 27, 459-461 ( 2015).

36.    Yang Liu, Wenxue Li, Jian Zhao, Dongbi Bai, Daping Luo and Heping Zeng, “High-power pre-chirp managed amplification of femtosecond pulses at high repetition rates,” Laser Physics Letters 12, 075101 (2015).

37.    Di Wang, Wenxue Li, Liangen Ding, Heping Zeng, “Enhanced XUV pulse generation at 89 nm via nonlinear interaction of UV femtosecond filaments,” Optics Letters 39, 4140-4143(2014). 

38.    Yang Liu, Wenxue Li, Xulin g Shen, Chao Wang, Zhiying Yang, Heping Zeng, “Square Nanosecond Mode-Locked Laser Based on Nonlinear Amplifying Loop Mirror,” IEEE Photonics Technology Letters 26, 1932-1935 (2014).

39.    Hao Qiang, Guo Zhengru, Liu Yang, Li Wenxue, Zhang Qingshan, Zeng Heping, “Spectrally tailored supercontinuum generation from single-mode-fiber amplifiers” Applied Physics Letters 104, 201112 (2014).

40.    Hui Zhou, Wenxue Li, Liping Shi, Di Wang, Liangen Ding and Heping Zeng, “Efficient generation of vacuum and extreme ultraviolet pulses,” Laser Physics Letters 11, 025402 (2014).

41.    Hui Zhou, Wenxue Li*, Di Wang, Liping Shi, Liang’en Ding, and Heping Zeng “Dissociative recombination in ultraviolet filamentary plasma gratings,” Optics Express 22, 10968-10974 (2014)

42.    Dongbi Bai, Wenxue Li, Kangwen Yang, Xuling Shen, Xiuliang Chen, Heping Zeng, “Nonlinear polarization rotation-induced pulse shaping in a stretched-pulse ytterbium-doped fiber laser,” Chinese Physics B 23, 155-161 (2014). 

43.    Min Li, Wenxue Li*, Heping Zeng, “Molecular alignment induced ultraviolet femtosecond pulse modulation,” Optics Express 21，27662-27667 (2013)

44.    Hao Li, Wenxue Li*, Yahui Feng, Haifeng Pan, and Heping Zeng*, “Field-free molecular orientation by femtosecond dual-color and single-cycle THz fields,” Physical Review A 88, 013424 (2013)

45.    Liping Shi, Wenxue Li*, Hui Zhou, Di Wang, Liang’en Ding, and Heping Zeng*, “Generation of multicolor vacuum ultraviolet pulses through four-wave sum-frequency mixing in argon,” Physical Review A 88, 053825 (2013)

46.    Liping Shi, Wenxue Li*, Hui Zhou, Di Wang,Liang’en Ding, and Heping Zeng*, “Enhanced ultraviolet pulse generation via dual-color filament interaction,” Applied Physics Letters 102, 081112 (2013)

47.    Liping Shi, Wenxue Li*, Dongbi Bai, Hui Zhou, Di Wang, Liang’en Ding, and Heping Zeng*, “Enhanced fluorescence emission of helium atoms by seeded optically driven impact excitation,” Physical Review A 88, 013418 (2013)

48.    Liping Shi, Wenxue Li*, Hui Zhou, Liang’en Ding, and Heping Zeng*, “Impact excitation of neon atoms by heated seed electrons,” Optics Letters 38, 398-400 (2013)

49.    Jian Zhao, Wenxue Li*, Dongbi Bai, Kangwen Yang, Qitian Ru, Yang Liu, Lang Li and Heping Zeng*, “Phase noise suppression for a high-power optical frequency comb,” Laser Physics 23, 095112 (2013).

50.    Niannian Lin, Wenxue Li*, Yuan Zhou, Yi Shi, Ming Yan, Kangwen Yang, Jian Zhao, Xianghui Yang, and Heping Zeng*. “High-power output of ytterbium-doped oxyorthosilicate lasers at 1018 nm” Laser Physics Letters 10, 015103 (2013)

51.    Ming Yan, Wenxue Li*, Kangwen Yang, Hui Zhou, Xulin Sheng, Qian Zhou, Qitian Ru, Dongbi Bai, and Heping Zeng*,“High-power Yb-fiber comb with feed-forward control of nonlinear-polarization-rotation mode-locking and large-mode-area fiber amplification,” Optics Letters 37，1511-1513（2012）

52.    Ming Yan, Wenxue Li*, Kangwen Yang, Dongbi Bai, Jian Zhao, Xuling Shen, Qitian Ru and Heping Zeng*, “Harmonic mode-locking with reduced carrier-envelope phase noise in ytterbium-doped fiber laser” Optics Letters 37, 1321 (2012).

53.    Hao Li, Wenxue Li*, Yahui Feng, Jia Liu, Haifeng Pan, and Heping Zeng*,“Measurement of molecular polarizability anisotropy via alignment-induced spatial focusing and defocusing,” Physical Review A 85, 052515（2012）

54.    Hui Zhou, Wenxue Li*, Kangwen Yang, Niannian Lin, Benxue Jiang, Yubai Pan, and Heping Zeng*, “Hybrid ultra-short Yb:YAG ceramic master-oscillator high-power fiber amplifier,” Optics Express 20, 489-495 (2012).

55.    Kangwen Yang, Wenxue Li*, Ming Yan, Xuling Shen, Jian Zhao, and Heping Zeng*, “High-power ultra-broadband frequency comb from ultraviolet to infrared by high-power fiber amplifiers,” Optics Express 20, 12899-12905 (2012).

56.    Yahui Feng, Wenxue Li*, Jia Liu, Haifeng Pan, Jian Wu, and Heping Zeng* “Direct retrieval of Kerr and plasma effects from alignment-induced spatiotemporal modulation,” Optics Letters 37，3846-3848（2012）

57.    Min Li, Wenxue Li*, Yi Shi, Peifen Lu, Haifeng Pan, and Heping Zeng*, “Verification of the physical mechanism of THz generation by dual-color ultrashort laser pulses,” Applied Physics Letters 101, 161104 (2012).

58.    Xuling Shen, Wenxue Li*, Ming Yan, and Heping Zeng*,”Electronic control of nonlinear-polarization-rotation mode locking in Yb-doped fiber lasers”, Optics Letters 37, 3426-3428(2012)

59.    Liping Shi, Wenxue Li*, Yongdong Wang,  Xin Lu,  Liang’en Ding,  and Heping Zeng*, “Generation of High-Density Electrons Based on Plasma Grating Induced Bragg Diffraction in Air，” Physical Review Letters 107, 095004 (2011)

60.    Jia Liu, Wenxue Li*, Haifeng Pan, and Heping Zeng*, “Two-dimensional plasma grating by non-collinear femtosecond filament interaction in air,” Applied Physics Letters 99, 151105 (2011).

61.    Wenxue Li*, Kangwen Yang, Ming Yan, Hui Zhou, Jingxin Ding, and Heping Zeng*, “Long-term carrier-envelope-phase stabilized fiber-bulk hybrid laser with millihertz linewidth and 50 W average power,” Laser Physics 21, 531-535 (2011).

62.    Ming Yan, Wenxue Li*, Kangwen Yang, Hui Zhou, and Heping Zeng*, “Stretched-pulse mode-locking synchronously triggered by a femtosecond master laser at sub-megahertz repetition rate,” Laser Physics 21, 526-530 (2011).

63.    Hui Zhou, Wenxue Li*, and Heping Zeng*, “Yb-doped fiber oscillator generating 41 fs wave-breaking-free pulses,” Laser Physics 21, 399-403 (2011).

64.    Xiaoyi Zhang, Wenxue Li*, Kangwen Yang, Hhui Zhou, Niannian Lin, Zhiyong Pan, Shaoyi Gu, Yaoji He, Jianping Huang, and Heping Zeng*, “High-power continuous-wave output of master oscillator power amplifier system at 1053 nm and 1083 nm,” Laser Physics 21 ,1789-1792 (2011).

65.    Kangwen Yang, Wenxue Li*, Ming Yan, Hui Zhou, Yuan Zhou, and Heping Zeng*, “Up to 85-W 1030-nm Fiber Laser Synchronized to 800- and 1550-nm Femtosecond Lasers at 79.5 MHz,” IEEE Photonics Technology Letters 23, 1558-1560 ( 2011).

66.    Liu, Jia; Li, Wenxue; Li, Hao; Feng, Yahui; Pan, Haifeng; Wu, Jian; Zeng, Heping*， “Comparison of frequency-resolved optical polarization gating induced by molecular alignment and Kerr effects,” Optics Letters, Vol. 37 Issue 13, pp.2748-2750 (2012)

67.    Hao Li，Wenxue Li ，Jia Liu，Haifeng Pan ，Jian Wu and Heping Zeng*, “Characterization of elliptically polarized femtosecond pulses by molecular-alignment-based frequency resolved optical gating” Applied Physics B 108, 761-766 (2012)

68.    Jia Liu, Wenxue Li*, Haifeng Pan, and Heping Zeng*, “Two-dimensional plasma grating by non-collinear femtosecond filament interaction in air,” Applied Physics Letters 99, 151105 (2011).

69.    Wenxue Li*, Kangwen Yang, Ming Yan, Hui Zhou, Jingxin Ding, and Heping Zeng*, “Long-term carrier-envelope-phase stabilized fiber-bulk hybrid laser with millihertz linewidth and 50 W average power,” Laser Physics 21, 531-535 (2011).

70.    Ming Yan, Wenxue Li*, Kangwen Yang, Hui Zhou, and Heping Zeng*, “Stretched-pulse mode-locking synchronously triggered by a femtosecond master laser at sub-megahertz repetition rate,” Laser Physics 21, 526-530 (2011).

71.    Hui Zhou, Wenxue Li*, and Heping Zeng*, “Yb-doped fiber oscillator generating 41 fs wave-breaking-free pulses,” Laser Physics 21, 399-403 (2011).

72.    Xiaoyi Zhang, Wenxue Li*, Kangwen Yang, Hhui Zhou, Niannian Lin, Zhiyong Pan, Shaoyi Gu, Yaoji He, Jianping Huang, and Heping Zeng*, “High-power continuous-wave output of master oscillator power amplifier system at 1053 nm and 1083 nm,” Laser Physics 21 ,1789-1792 (2011).

73.    Kangwen Yang, Wenxue Li*, Ming Yan, Hui Zhou, Yuan Zhou, and Heping Zeng*, “Up to 85-W 1030-nm Fiber Laser Synchronized to 800- and 1550-nm Femtosecond Lasers at 79.5 MHz,” IEEE Photonics Technology Letters 23, 1558-1560 ( 2011).

74.    Guang Wu, Wenxue Li, E Wu, Heping Zeng*, “Generation of correlated UV and visible rainbows,” Optics Express 18, 1000-1010 (2010).

75.    Yao Li, Wenxue Li*, Qiang Hao, Ming Yan, Hui Zhou, and Heping Zeng*, “Generation of synchronized three-color ultrashort laser pulses at high repetition rate,” Laser Physics Letters 7, 50–54 (2010) .

76.    Wenxue Li, Qiang Hao, Ming Yan, and Heping Zeng*, “Tunable flat-top nanosecond fiber laser oscillator and 280 W average power nanosecond Yb-doped fiber amplifier,” Optics Express 17, 10113–10118 (2009)

77.    Wenxue Li, Qiang Hao, Qiuhong Yang and Heping Zeng*, “Diode-pumped passively mode-locked Yb3+-doped yttrium lanthanum oxide ceramic laser,” Laser Physics Letters 6，559-562 (2009).

78.    Ming Yan, Wenxue Li*, Qiang Hao, Yao Li, Heping Zeng*, “Square nanosecond Yb- and Er-doped fiber lasers passively synchronized to Ti:sapphire laser based on cross-absorption modulation,” Optics Letters  34，2018-2020 (2009).

79.    Ming Yan, Wenxue Li*, Qiang Hao, Yao Li, Hui Zhou, and Heping Zeng*, “High-power nanosecond Yb-doped fiber laser passively synchronized with a femtosecond Ti:sapphire laser,”  Optics Letters 34，3331-3333 (2009).

80.    Qiang Hao, Wenxue Li*, Haifeng Pan, Xiaoyi Zhang, Benxue Jiang, Yubai Pan, and Heping Zeng*, “Laser-diode pumped 40-W Yb:YAG ceramic laser,” Optics Express 17, 17734-17738 (2009)

81.    Qiang Hao, Wenxue Li*, and Heping Zeng*, “High-power Yb-doped fiber amplification systemsynchronized with a few-cycle Ti:sapphire laser,” Optics Express 17, 5815-5821 (2009).

82.    Qiang Hao, Wenxue Li*, Yao Li, Ming Yan, and Heping Zeng*, “Generation of tunable picosecond pulses by pulse stacking in an Yb-fiber gain-assisted pulse stacker,” Optics Express 17, 18894-18899 (2009) .

83.    Qiang Hao, Wenxue Li*, E Wu, Heping Zeng*, “Diode-pumped rational harmonic mode-locked Yb:GSO laser,” IEEE Journal of Quantum Electronics 45, 86-89 (2009).

84.     Sanjun Zhang, Nicolas Hugo, Wenxue Li, Thibault Roland, Lotfi Berguiga, Juan Elezgaray, Francoise Argoul*, “Impedance spectroscopy of the potential reponse of MUO and AUT self-assembled monolayers on polycristalline thin gold films,” Journal of Electroanalytical Chemistry 629, 138-146 (2009).

85.    San-jun ZHANG, Lotfi BERGUIGA, Juan ELEZGARAY, Nicolas HUGO, Wen-xue LI, Thibault ROLAND, He-ping ZENG, Francoise ARGOUL*, “Advances in surface Plasmon resonance-baced high throughput biochips,” Frontiers of Physics in China 4, 469-480 (2009)

86.    Wenxue Li, Qiang Hao, Hui Zhai, Heping Zeng, Wei Lu, Guangjun Zhao, Lihe Zheng, Liangbi Su, and Jun Xu, “Diode-pumped Yb:GSO femtosecond laser,” Optics Express 15, 2354-2359 (2007).

87.    Wenxue Li, Qiang Hao, Liang’en Ding, Guangjun Zhao, Lihe Zheng, Liangbi Su, Jun Xu and Heping Zeng, “Continuous-wave and Passively Mode-locked Yb:GYSO lasers Pumped by Diode Lasers,” IEEE Journal of Quantum Electronics 44,567-572 (2008).

88.    Wenxue Li, Qiang Hao, Jingxin Ding and Heping Zeng，“Continuous-wave multi-wavelength diode-pumped Yb:GYSO laser,” Journal of Optics A: Pure and Applied Optics 10, 095307 (2008).

89.    Qiang Hao, Wenxue Li, and Heping Zeng, “Double-clad fiber amplifier for broadband tunable ytterbium-doped oxyorthosilicates lasers,” Optics Express 15, 16754-16759 (2007).

90.    Qiang Hao, Wenxue Li, E Wu, and Heping Zeng, “Low-threshold and broad tunable lasers of Yb3+-doped yttrium lanthanum oxide ceramic,” Applied Physics Letters 92, 211106 (2008).

91.    Shixiang Xu, Wenxue Li, Qiang Hao, Hui Zhai,and Heping Zeng,“Efficient laser-diode end-pumped passively Q-switched mode-locked Yb:LYSO laser based on SESAM,” Chinese Physics Letters 25, 548-551 (2008)

92.    Wenxue Li, Haifeng Pan, Liang’en Ding, Heping Zeng, Guangjun Zhao, Chengfeng Yan, Liangbi Su, and Jun Xu, “Efficient diode-pumped Yb:Gd2SiO5 laser,” Applied Physics Letters 88, 221117 (2006).

93.    Wenxue Li, Qiang Hao, Hui Zhai, Heping Zeng, Wei Lu, Guangjun Zhao, Chengfeng Yan, Liangbi Su, and Jun Xu,“Low-threshold and continuously tunable Yb:Gd2SiO5 laser,” Applied Physics Letters 89, 101125 (2006). 

94.    Wenxue Li, Haifeng Pan, Liang’en Ding, Heping Zeng, Guangjun Zhao, Chengfeng Yan, Liangbi Su, and Jun Xu, “Diode-pumped continuous-wave and passively mode-locked Yb:GSO laser,” Optics Express 14, 686-695 (2006).

95.    Wenxue Li, Shixiang Xu, Haifeng Pan, Liang’en Ding, Heping Zeng, Wei Lu, Chunlei Guo, Guangjun Zhao, Chengfeng Yan, Liangbi Su, Jun Xu, “Efficient tunable diode-pumped Yb:LYSO laser,” Optics Express 14, 6681-6686 (2006).

96.    Chengfeng Yan, Guangjun Zhao, Lianhan Zhang, Jun Xu , Xiaoying Liang, Du Juan, Wenxue Li, Haifeng Pan, Liangen Ding, and Heping Zeng, “A new Yb-doped oxyorthosilicate laser crystal: Yb:Gd2SiO5,” Solid State Communications 137,451-455 (2006).