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Book Chapters

1. Z. Wei, H. Han, W. Zhang, Y. Zhao, J. Zhu, H. Teng, and Q. Du, "Measurement and control of carrier-envelope phase in femtosecond Ti:sapphire laser," Advances in solid-state lasers:Development and applications, ISBN 978-953-7619-80-0, pp.630, Feb. 2010, INTECH.

2. 朱江峰,魏志义,“新型全固态稀土掺杂超短脉冲激光,”稀土激光晶体材料及其应用,徐军等著,科学出版社,2016.2 ISBN 978-7-03-047368-4

Papers in refereed journals

2017

71. 朱江峰,田文龙,高子叶,魏志义,“二极管泵浦全固态飞秒Yb激光振荡器,” 中国激光 44 (9),0900001 (2017).(邀请论文)

70. C. Ma, J. Zhu, K. Liu, Z. Wen, R. Ma, J. Long, X. Yuan, and Y. Cao, "CW and tunable performance of Yb3+: LuAG transparent ceramics with different doping concentrations," Opt. Mater. 69, 190 (2017)

69. C. Ma, J. Zhu, Z. Hu, Z. Wen, J. Long, X. Yuan, and Y. Cao, "Spectroscopic Properties and Continuous Wave Laser Performances at 1064 nm of Nd3+:LuAG Transparent Ceramic," IEEE Photonics Journal 9, 1501814 (2017).

68. N. Zhang, H. Teng, P. He, H. Huang, J. Zhu, W. Tian, H. Wu, S. Pan, S. Fang, and Z. Wei, "263-nm Deep Ultraviolet Femtosecond Laser Pulses Generation in K3B6O10Cl Crystal,"  Chin. Phys. B 26, 064208 (2017).

67. J. Zhu, K. Liu, J. Li, J. Wang, Y. Yu, H. Wang, Z. Gao, T. Xie, C. Li, Y. Pan, and Z. Wei, "Diode-pumped Passively Mode-locked Sub-picosecond Yb:LuAG Ceramic Laser," Chin. Phys. B 26, 054213 (2017).

66. W. Tian, Z. Wang, J. Zhu, L. Zheng, X. Xu, and Z. Wei, "Highly efficient and high-power diode-pumped femtosecond Yb:LYSO laser," Laser Phys. Lett. 14, 045802 (2017).

65.  Z. Gao, J. Zhu, Z. Wu, Z. Wei, H. Yu, H. Zhang, and J. Wang, "Tunable second harmonic generation from a Kerr-lens mode-locked Yb:YCa4O(BO3)3 femtosecond laser," Chin. Phys. B. 26, 044202 (2017). (Highlights of the issue, cover picture)

64.  C. Hu, J. Zhu*, Z. Wang, X. Sun, L. Wei, W. Ling, Z. Dong, Q. Wang, C. Gao, and Z. Wei, "Kerr-lens mode-locked polycrystalline Cr:ZnS femtosecond laser pumped by a monolithic Er:YAG laser," Chin. Phys. B 26, 014206 (2017).

2016 

63. W. Tian, Z. Wang, J. Zhu, and Z. Wei, "Harmonically pumped femtosecond optical parametric oscillator with multi-gigahertz repetiton rate," Opt. Express. 24, 29814 (2016)

62. Z. Gao, J. Zhu*, J. Wang, Z. Wang, Z. Wei, X. Xu, L. Zheng, L. Su and J. Xu. "Diode-pumped Kerr-lens mode-locked Yb:CaGdAlO4 laser with tunable wavelength," Laser Phys. Lett. 13, 015302 (2016).

61. Z. Gao,  J. Zhu* K. Wang, J. Wang, Z. Wang, Z. Wei, "Diode pumped Kerr-lens mode-locked femtosecond Yb:YAG ceramic laser," Chin. Phys. B  25, 024204 (2016).

60. W. Tian, Z. Wang, J. Zhu, and Z. Wei, "Tunable femtosecond near-infrared source based on a Yb:LYSO-laser-pumped optical parametric oscillator," Chin. Phys. B 25, 014207 (2016).

59. W. Tian,  Z. Wang, J. Zhu, L. Zheng, X. Xu, J. Xu, and Z. Wei, "Diode-pumped Kerr-lens mode-locked Yb:GSO laser generating 72 fs pulses," Opt. & Laser Technology 79, 137 (2016).

58. Y. Peng, Z. Wang, D. Li, J. Zhu, and Z. Wei, "A 12.1 W SESAM mode-locked Yb:YAG thin disk laser," Chin. Phys. B 25, 054205 (2016).

57. J. Zhu, L. Wei, W. Tian, J. Liu, Z. Wang, L. Su, J. Xu, and Z. Wei,  "Generation of sub-100 fs pulses from mode-locked Nd,Y:SrF2 laser with enhancing SPM," Laser Phys. Lett. 13, 055804 (2016).

56. C. Ma, F. Tang, J. Zhu, Z. Wen, Y. Yu, K. Wang, M. Du, J. Zhang, J. Long, X. Yuan, W. Guo, and Y. Cao, "Cation diffusion at the interface of composite YAG/Re:LuAG(Re=Dd or Yb) transparent ceramics," Journal of the European Ceramic Society 36, 2555 (2016).

55. 张菊婷,朱江峰*,王军利,魏志义,苏良碧,徐军,“LD泵浦Nd-La共掺和Nd-Sc共掺CaF2无序晶体的激光性能” 光子学报 45,0114001 (2016)

54. C. Ma, F. Tang, J. Zhu, M. Du, X. Yuan, Y. Yu, K. Wang, Z. Wen,  J. Zhang, J. Long, and Y. Cao, "Spectral and laser properties of Yb:LuAG transparent ceramics fabricated by tape-casting method," Journal of the American Ceramic Society 99, 3267 (2016).

53.  H. Wang, J. Zhu*, Z. Gao, Y. Yu, K. Liu, J. Wang, Z. Wei, J. Liu, D. Jiang, F. Ma, L. Su, "Femtosecond mode-locked Nd,La:CaF2 disordered crystal laser, " Opt. Mater. Express 6, 2184 (2016).

52. C. Ma, J. Zhu, K. Liu, F. Tang, J. Long, Z. Wen, R. Ma, X. Yuan, W. Guo,J. Li, and Y. Cao, "Longitudinally diode-pumped planar waveguide YAG/Yb:LuAG/YAG ceramic laser at 1030.7 nm," Opt. Lett. 41, 3317 (2016).

51. 于洋,朱江峰*李江,高子叶,王军利,谢腾飞,潘裕柏,魏志义,“二极管抽运国产Yb:YAG陶瓷高功率被动调Q激光器” 中国激光 43,  1001007 (2016).

50. Y. Peng, J. Zhang, Z. Wang, J. Zhu, D. Li, and Z. Wei, "Generation of 15 W femtosecond laser pulse from a Kerr-lens mode-locked Yb:YAG thin-disk oscillator," Chin. Phys. B 25, 094207 (2016). 

49. W. Tian, X. Meng, Z. Wang, J. Zhu, and Z. Wei, "High power, green-pumped femtosecond optical parametric oscillator based on BIBO,"  Opt. Lett. 41, 4851 (2016) .

48. N. Zhang, H. Huang, H. Teng, W. Tian, J. Zhu, H. Wu, S. Pan, S. Fang, and Z. Wei, "Generation of 396 nm pulses in KBOC crystal," Chin. Phys. B 25, 124204 (2016). 

2015

47. Z. Gao, J. Zhu*, J. Wang, Z. Wei, X. Xu, L. Zheng, L .Su, and J. Xu, "Generation of 33 fs pulses directly from a Kerr-lens mode-locked Yb:CaYAlO4 laser," Photon. Res. 3, 335 (2015)

46. J. Zhu, Z. Gao, W. Tian, J. Wang, Z. Wang, Z. Wei, L. Zheng, L. Su, and J. Xu, "Kerr-lens mode-locked femtosecond Yb:GdYSiO5 laser directly pumped by a laser diode," Appl. Sci. 5, 817 (2015)

45. W. Tian, Z. Wang, J. Liu, J. Zhu, L. Zheng, X. Xu, J. Xu, and Z. Wei, “Dissipative soliton and synchronously dual-wavelength mode-locking Yb:YSO lasers,”Opt. Express 23, 8731 (2015).

44. J. Zhu, L. Zhang, Z. Gao, J. Wang, Z. Wang, L. Su, L. Zheng, J. Wang, J. Xu, and Z. Wei, "Diode pumped femtosecond mode-locked Nd, Y-codoped CaF2 laser," Laser Phys. Lett. 12, 035801 (2015).

43. W. Tian, Z. Wang, J. Zhu, Z. Wei, L. Zheng, X. Xu, and J. Xu, "Generation of 54 fs laser pulses from a diode pumped kerr-lens mode-locked Yb:LSO laser," Chin. Phys. Lett. 32 024206 (2015).

42. W. Tian, J. Zhu*, Z. Wang, and Z. Wei, "Efficient femtosecond optical parametric oscillator pumped by all solid-state mode-locking Yb:YCOB laser," Chin. Opt. Lett. 13 011901 (2015).

41.J. Wang, B. He, S. Dai, J. Zhu, and Z. Wei, "Waveguide in Tm3+ doped chalcogenide glass fabricated by femtosecond laser direct writng," IEEE Photon. Tech. Lett. 27 237 (2015).

40.  J. Wang, X. Wang, B. He, J. Zhu, Z. Wei, and Y. Wang, "High-energy pulse generation using Yb-doped Q-switched fiber laser based on single-walled carbon nanotubes," Chin. Phys. B 24, 097601 (2015).

39. J. Wang, Z. Jiang, J. Zhu, and Y. Wang, "Two types of cavities for side-pumped Nd:YAG laser mode locked bysemiconductor saturable absorber mirror," Optik126, 3752 (2015)

38. J. Wang, X. Wang, B. He, Y. Wang, J. Zhu, Z. Wei, "High-Pulse-Energy All-Normal-Dispersion Yb-Doped Fiber Laser Based on Nonlinear Polarization Evolution," Chin. Phys. Lett. 32, 114202 (2015)

37. 汪珂,朱江峰*,高子叶,李江,王军利,谢腾飞,潘裕柏,魏志义,“二极管抽运Yb:YAG陶瓷连续激光器和波长调谐实验研究” 中国激光 42,1202004 (2015)

 2014

36. Z. Gao, J. Zhu, W. Tian, J. Wang, Z. Zhang, Z. Wei, H. Yu, H. Zhang, and J. Wang, “Generation of 73 fs pulses from a diode pumped Kerr-lens mode-locked Yb:YCa4O(BO3)3 laser,”Opt. Lett. 39 5870 (2014).

35. Z.Gao,J. Zhu, L. Zhang, J. Wang, Z. Wang, Z. Wei, and Q.Yang, "Generation of 85 fs laser pulses from diode-pumped Kerr-lens mode-lockng Yb:(Y0.9La0.1)2O3 ceramic laser," Laser Phys. Lett.11 115302 (2014).

34. W. Tian, Z. Wang, L. Wei, Y. Peng, J. Zhang, Z. Zhu, J. Zhu, H. Han, Y. Jia, L. Zheng, J. Xu, and Z. Wei, "diode-pumped Kerr-lens mode-locked Yb:LYSO alser with 61fs pulse duration," Opt. Express 22, 19040 (2014).

33. J.Wang, X.Bu, R. Wang, L. Zhang, J. Zhu, H. Teng, H. Han, and Z. Wei, "All-normal-dispersion passive harmonic mode-locking 220 fs ytterbium fiber laser," Appl. Opt. 53, 5088 (2014).

32. W. Tian, J. Zhu, Z. Wang, J. Wang, and Z. Wei, "Dissipative soliton operation in diode pumped ultrafast Yb:GdYSiO5 oscillator," Chin. Opt. Lett. 12, 031401 (2014).

31. Z.Gao, J. Zhu, W. Tian, J. Wang, Q. Wang,Z. Zhang, Z. Wei, H. Yu, H. Zhang, and J. Wang,  "Diode-pumped self-starting mode-locked femosecnd Yb:YCa4O(BO3)3 laser," Chin. Phys. B 23, 054207 (2014). (Highlights of the issue, most impacted paper by CPS2016)

2013

30. J. Zhu, L. X, Q. Lin, X. Zhong, H. Han, and Z. Wei, “Tunable femtosecond laser in the visible range with an intracavity frequency-doubled optical parametric oscillator,” Chin. Phys. B, 22, 054210 (2013). (Highlights of the issue)

2012

29. J. Zhu, W. Tian, J. Wang, Z. Wang, Z. Wei, L. Zheng, L. Su, and J. Xu, “Diode-pumped passively mode-locked Yb:GYSO laser generating 324 fs pulses at 1091 nm, ” Opt. Lett. 37, 5190-5192 (2012).

28. J. Zhu, Z. Wang, Q. Wang, Z. Zhang, Q. Yang, J. Yang, Y. Ma, and Z. Wei, “Diode-pumped passively mode-locked femtosecond Yb:(Y0.9La0.1)2O3 ceramic laser, ” Chin. Opt. Lett. 10, 121403 (2012).

27. J. Zhu, W. Ling, X. Zhong, Z. Wang, and Z. Wei,“High energy picosecond optical parametric amplifier pumped by the second harmonic of a two-stage Ti:sapphire laser,” IEEE J.Quantum Electron. 48, 1300 (2012).

26. L. Lv, Q. Wang, J. Zhu, Y. Zou, Z. Wang, and Z. Wei, “Efficient mode-locked picosecond Yb:YAG ceramic laser,” Chin. Opt. Lett. 10, S11410 (2012).

25. L. Xu, X. Zhong, J. Zhu, H. Han, and Z. Wei,“Efficient femtosecond optical parametric oscillator with dual-wavelength operation,” Opt. Lett. 37, 1436 (2012).

2011

24.     王庆, 魏志义, 张治国王振琳,  朱江峰,  杨秋红,  张浩佳,  陆神洲 , “Nd:Y1.8La0.2O3透明陶瓷实现瓦级激光输出,” Chinese Journal of Lasers 38, 1003010~6 (2011). 

23.     J. Zhu, S. Fang, K. Yamane, and M. Yamashita, “Frequency-varying spectral shear interferometry for characterization of arbitrary short isolated attosecond pulses,” IEEE Journal of Quantum Electronics. 47, 810 (2011).

22.     S. Fang, K. Yamane, J. Zhu, C. Zhou, Z. Zhang, and M. Yamashita, “Generation of sub-900 mJ supercontinuum with a two-octave bandwidth based on induced phase modulation in argon-filled hollow fiber,” IEEE Photonics Technology Letters 23, 688 (2011).

2010

21.    J. Zhu, T. Tanigawa, T. Chen, S. Fang, K. Yamane, T. Sekikawa, and M. Yamashita, “Ultrabroadband spectral amplitude modulatoin using a liquid crystal spatial light modulator with ultraviolet-to-near-infrared bandwidth,” Appl. Opt. 49, 350 (2010).

2009

20.    X. Zhong, J. Zhu, B. Zhou, and Z. Wei, “Synchronously pumped femtosecond optical parametric oscillator at 1053 nm,” Science in China Series G: Physics, Mechanics and Astronomy 52, 1187 (2009).

19.    钟欣,朱江峰,周斌斌,魏志义,“1053 nm同步抽运飞秒光参量振荡器,” 中国科学G辑:物理学力学天文学39, 537 (2009).

18.    H. Teng, C. Yun, J. Zhu, H. Han, X. Zhong, W. Zhang, and Z. Wei, “Generation of continuum extreme-ultraviolet radiation by carrier-envelope-phase-stabilized 5-fs laser pulses,” Chin. Phys. Lett. 26, 113201 (2009).

2008

17.    J. Zhu, Q. Du, X. Wang, H. Teng, H. Han, Z. Wei, and X. Hou, “Carrier-envelope phase measurement and stabilization of amplified Ti:sapphire femtosecond laser pulses by spectral interferometry,”ACTA PHYSICA SINICA (in Chinese) 57, 7753 (2008).

16.    H. Zhao, P. Wang, J. Zhu, Q. Du, and Z. Wei, “Sum-frequency generation between an actively synchronized ultrashort Ti:sapphire laser and a Nd: YVO4 laser,” J. Opt. Am. B 25, B39 (2008).

15.    Z. Wei, Z. Wang, P. Wang, W. Ling, J. Zhu, H. Han, and J. Zhang, “A compact 355TW femtosecod Ti:sapphire laser facility and trend to high contrast ratio,” The fifth International Conference on Inertial Fusion Sciences and Applications (IFSA2007); Journal of Physics: Conference Series 112 , 032003 (2008).

14.    J. Zhu, P. Wang, H. Han, H. Teng, and Z. Wei, “Experimental study on generation of high energy few cycle pulses with hollow fiber filled with neon,” Science in China Series G: Physics, Mechanics and Astronomy 51, 507 (2008).

13.    朱江峰,王鹏,韩海年,滕浩,魏志义,“利用光谱展宽再压缩技术实现5.1fs亚毫焦耳激光脉冲,”中国科学G辑:物理学力学天文学38, 812 (2008).

12.    Q. Du, J. Zhu, H. Teng, C. Yun, Z. Wei, “Carrier-envelope phase locking of 5fs amplified Ti:sapphire laser pulse at 1kHz repetition rate,” Chinese Science Bulletin 53, 671 (2008).

11.    杜强,朱江峰,滕浩,运晨霞,魏志义,“5fs放大激光脉冲载波包络相位的锁定研究,”科学通报, 53, 40 (2008).

10.    Z. Wei, X. Zhong, B. Zhou, J. Zhu, C. Xu, and Z. Zhang, “Frequency extending of ultrashort laser pulse with linear and nonlinear processes,” Infrared and Laser Engineering (in Chinese) 37, 987 (2008).

9.    H. Zhao, Y. Zhao, J. Tian, P. Wang, J. Zhu, W. Ling, and Z. Wei, “Highly precise active-synchronization between two independent femtosecond Ti: sapphire oscillators,” ACTA PHYSICA SINICA (in Chinese) 57, 892 (2008).

2007

8.    J. Zhu, X. Zhong, H. Teng, J. Sun, and Z. Wei, “Synchronously pumped femtosecond optical parametric oscillator based on MgO-doped periodically poled LiNbO3,” Chin. Phys. Lett. 24, 2603 (2007).

7.    J. Zhu, W. Ling, Z. Wang, P.Wang, J. Sun, Z. Wei, D. Zhang, X. Ma and W. Zhan, “High energy picosecond near-vacuum ultraviolet pulses generated by sum frequency mixing of amplified Ti:sapphire laser,” Appl. Opt. 46, 6228 (2007).

6.    Y. Chen, W. Yan, D. Wang, S. Chen, G. Zhang, J. Zhu, and Z. Wei, “Submicron domain inversion in Mg-doped LiNbO3 using backswitched poling with short voltage pulses,” Appl. Phys. Lett. 90, 062908 (2007).

5.    H. Han, Y. Zhao, W. Zhang, J. Zhu, P. Wang, Z. Wei, and S. Li, “Measurement of carrier-envelope phase of few cycles Ti: sapphire laser by difference frequency technique,” ACTA PHYSICA SINICA (in Chinese) 56, 2756 (2007).

4.    Z. Wei, Z. Wang, H. Han, Q. Du, J. Zhu, H. Zhao, Y. Zhao, W. Zhang, B. Zhou, H. Teng, D. Li, Y. Nie, and J. Zhang, “Progress on ultrashort and ultraintense laser pulse technology,” Infrared and Laser Engineering (in Chinese) 36, 773 (2007).

2006

3.    J. Zhu, J. Tian, P. Wang, W. Ling, D. Li, and Z. Wei, “Self-starting mode-locked picosecond Ti:sapphire laser by using of a fast SESAM,” Chin. Phys. B15, 2022 (2006).

2.    J. Zhu, and Z. Wei, “Femtosecond laser micro-nano fabrication,” Physics (in Chinese) 35, 679 (2006).

2003

1.    厉江帆, 姜宗福, 单树民, 黄春佳, 朱江峰, “用夫朗和费衍射法测定微粒直径的准确度,” Applied laser 23, 100 (2003).

Papers in conference

2017

1. W. Tian, J. Zhu*et al, CIOP2017, Harbin, China

2. W. Tian, J. Zhu*et al, ASSL 2017, Nagoya, Japan

3. W. Tian, T, Peng, Z. Wei, J. Zhuet al, CLEO-PR 2017, Singapore 

4.J. Zhu, OIT2017, Beijing, China (Invited)

2016:

1. Kai Liu, J. Zhu*, J. Li, Y. Yu, H. Wang, Z. Gao, J. Wang, and Z. Wei, Advanced Solid State Lasers, Boston, US (2016)

2. J. Zhu, CIOP 2016, Shanghai, China (Invited)

3. J. Zhu, ISUPTW 2016, Chongqing, China (Invited)

4. J. Zhu, APS fall meeting, Beijing, China (Invited)

2015:

1.Z. Gao, J. Zhu*, J. Wang, Z. Wei, L. Zheng, L. Su, and J. Xu, CLEO 2015, San Jose, US (2015)

2.J.  Wang , B.  He , J.  Zhu , Z.  Wei , and S.  Dai, CLEO-PR 2015,Busan,Korea, (2015)

3.J. Zhu, L. Zhang, J. Zhang, Z. Gao, J. Wang, Z. Wei, L. Su, and J. Xu, CLEO-PR 2015,Busan,Korea, (2015)

4.Z. Gao, J. Zhu*, J. Wang, and Z. Wei, CLEO-PR 2015,Busan,Korea, (2015)

5.J. Zhu, Z. Gao, W. Tian, J. Zhang, J. Wang, Z. Wang, L. Su, J. Xu, H. Zhang, Q. Yang, and Z. Wei UFO2015. Beijing, China (Invited) 

2014: 

1. W. Tian, Z. Wang, J. Zhu, Z. Wei, L. Zheng, X. Xu, and J. Xu, Advanced Solid State Lasers, Shanghai, China (2014)

2. Z. Gao, J. Zhu*, W. Tian, J. Wang, X. Zeng, Z. Wang, Z. Zhang, Z. Wei, H. Zhang, CLEO 2014, San Jose, US (2014)

3. W. Tian, Z. Wang, Z. Wei, J. Zhu, L .Zheng, and J. Xu, CLEO 2014, San Jose, US (2014)

2013:

1. J. Zhu, China-Germany Symposium for "Laser Cooling at storage rings", Lanzhou, China (2013)

2. W. Tian, J. Zhu, J. Wang, Z. Wei, L. Zheng, L. Su, J. Xu, Advanced Solid State Lasers, Paris, France (2013)

 

 Papers in proceedings

1. J. Zhu, S. Fang, K. Yamane, T. Chen, and M. Yamashita, “Completely characterizing single attosecond pulses by the modified spectral  phase interferometry, ” Ultrafast Phenomena XVII Oxford University Press, Oxford, page 889 (2010).

2. J. Zhu, P. Wang, H. Han, H. Teng, and Z. Wei. “Compression and carrier-envelope control of 5 fs laser pulse for driving attosecond pulse,” 27th International Congress on High-Speed Photography and Photonics, Proc. SPIE 6279, 62793Z (2007).

3. W. Ling, Y. Wang, W. Zhao, J. Tian, J. Zhu, and Z. Wei, “Self-starting 21-ps Ti:sapphire laser with high beam quality,” 27th International Congress on High-Speed Photography and Photonics, Proc. SPIE 6279, 62793U (2007).

4. Z. Wei, J. Zhu, Z. Wang, J. Tian, W. Ling, P. Wang, H. Han, Y. Zhao, H. Zhao, W. Zhang, and J. Zhang, “Management of Femtosecond Laser Pulse—Generation, Phase Control, Synchronization and Amplification,” Asian Summer School on Laser Plasma Acceleration and Radiation. AIP Conference Proceedings 920, 191 (2006).

5. H. Zhao, P. Wang, J. Zhu, H. Han, and Z. Wei, “Generation of 460 nm femtosecond laser pulse by sum frequency synchronized femtosecond Ti:sapphire laser and picosecond Nd: YVO4 laser,” Proceedings of the 15th International Conference on Ultrafast Phenomena, Springer series in chemical physics, 88, 110 (2006).

 Patents

1.一种高光束质量的脉冲掺钛蓝宝石激光器.发明专利号:ZL 200810114410.3

2.光学偏振变换器及其制作方法.发明专利号:ZL 2013 1 0374450.2

3.铥离子掺杂硫卤化合物玻璃单线波导刻写的最佳能量测定.发明专利号:ZL 2014 1 0369976.6

4.一种U型结构的蓝宝石光纤光栅温度与应力传感器的制备方法.发明专利号:ZL 2013 1 0692913.X

5.激光二极管泵浦的克尔透镜锁模Yb:(Yla)2O3全固态飞秒激光器.发明专利号:ZL 2014 1 0213332.8

6.一种基于Yb:GSO激光晶体的亚百飞秒锁模激光器. 发明专利号:ZL 2014 1 0246658.0

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