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2016

100.  Bingying Chen, Tongxiao Jiang, Weijian Zong, Liangyi Chen , Zhigang Zhang and Aimin Wang, “910nm

femtosecond Nd-doped Fiber Laser for in vivo Two-photon Microscopic Imaging,” Opt. Express,

99.   Wei Liu, Chen Li, Zhigang Zhang, Franz X. Kärtner and Guoqing Chang, “Self-phase modulation enabled,
wavelength tunable ultrafast fiber laser sources: an energy scalable approach,” Opt.  Express,
98.   Jian Zhang, Ziyun Kong, Yizhou Liu, Aimin Wang and Zhigang Zhang, “Compact 517 MHz soliton mode- locked Er-doped fiber ring laser,” Photonics Research, 4, 27(2016)

 

20154篇)

           97.   Xing Chen, Jian Zhang, Jinlong Lu, Xing Lu, Xusheng Tian, Bo Liu, Hong Wu, Tingsong Tang, Kebin Shi and Zhigang Zhang, “Feed-forward digital phase compensation for long distance precision frequency dissemination via fiber network,” Opt. Lett. 40, 371–374(2015).

           96.   Yizhou Liu, Yifan Cui, Jian Zhang, Aimin Wang and Zhigang Zhang, “73 nJ、109 fs Yb-doped fiber laser at 19 MHz repetition rate in amplifier similariton regime,” Photon. Res. 3(5), 248-251 (2015).

           95.   Chen Li, Yuxuan Ma, Xiang Gao, Fuzeng Niu, Tongxiao Jiang, Aimin Wang and Zhigang Zhang, “1 GHz repetition rate femtosecond Yb:fiber laser  for direct generation of carrier-envelope frequency offset beating signals,” Appl. Opt. 54(28) 8350-8353 (2015).

           94.   Xing Chen, Jinlong Lu, Yifan Cui, Jian Zhang, Xing Lu, Xusheng Tian, Cheng Ci, Bo Liu, Hong Wu, Tingsong Tang, Kebin Shi, and Zhigang Zhang, “Simultaneously precise frequency transfer and time synchronization using feed-forward compensation technique via 120 km fiber link,” Sci. Rep. 5, 18343 (2015); doi: 10.1038/srep18343

20147篇)

           93.   Tongxiao Jiang, Aimin Wang, Guizhong Wang, Wei Zhang, Fuzeng Niu, Chen Li,and Zhigang Zhang, “Tapered photonic crystal fiber for simplified Yb:fiber laser frequency comb with low pulse energy and robust fceo signals,” Opt. Express 22, 1835-1841 (2014).

           92.  Chen Li, Guizhong Wang, Tongxiao Jiang, Peng Li, Aimin Wang, and Zhigang Zhang, “Femtosecond amplifier-similariton Yb:fiber laser at 616 MHz repetition rate,” Opt. Lett. 39, 1831-1833 (2014).

           91.  Guizhong Wang, Fei Meng, Chen Li, Tongxiao Jiang, Aimin Wang, Zhanjun Fang and Zhigang Zhang, “500 MHz spaced Yb:fiber laser frequency comb without amplifiers,” Opt. Lett. 39, 2534–2536 (2014).

           90.   Xiang Gao, Weijian Zong, Bingying Chen, Jian Zhang, Chen Li, Yizhou Liu, Aimin Wang, Yanrong Song and Zhigang Zhang, “Core-pumped femtosecond Nd:fiber laser at 905nm-940nm band,” Opt. Lett. 39, 4404-4407 (2014).

           89.   Fuzeng Niu, Tongxiao Jiang, Shunnan Lai, Wei Zhang, Aimin Wang and Zhigang Zhang, “Green-light- enhanced super-continuum generation in a tapered photonic crystal fiber for efficient fceo detection of Yb:fiber laser frequency combs,” Electron. Lett., 50, 1859-1860 (2014).

           88.   Dong Hou, Jiutao Wu, Shuangyou Zhang, Quansheng Ren, Zhigang Zhang, Jianye Zhao, “A stable frequency comb directly referenced to rubidium electromagnetically induced transparency and two-photon transitions,” Appl. Phys. Lett. 104, 111104-5 (2014).

           87.  Jiutao Wu, Dong Hou, Zhengyu Qin, Zhigang Zhang, and Jianye Zhao, “Observation of Rb two-photon absorption directly excited by an erbium-fiber-laser-based optical frequency comb via spectral control,” Phys. Rev. A 89, 041402 (2014).

20136篇)

           86.   Chen Li, Guizhong Wang, Tongxiao Jiang, Aimin Wang, and Zhigang Zhang, “750 MHz fundamental repetition rate femtosecond Yb:fiber ring laser,” Opt. Lett. 38, 314-316 (2013).

           85.  Tongxiao Jiang, Guizhong Wang, Wei Zhang, Chen Li, Aimin Wang, and Zhigang Zhang, “Octave-spanning spectrum generation in tapered silica photonic crystal fiber by above 500 MHz Yb:fiber ring laser,” Opt. Lett. 38. 443-445 (2013).

           84.  Guizhong Wang, Tongxiao Jiang, Chen Li, Hongyu Yang, Aimin Wang,and Zhigang Zhang, “Octave-spanning spectrum of femtosecond Yb:fiber ring laser at 528 MHz repetition rate in microstructured tellurite fiber,” Opt. Express, 21, 4703 (2013).

           83.   Jiutao Wu, Dong Hou, Zhengyu Qin, Xiaoliang Dai, Zhigang Zhang and Jianye Zhao, “Erbium fiber laser-based direct frequency comb spectroscopy of Rb two-photon transitions,” Opt. Lett. 38, 5028-5031(2013).

           82.   Gengji Zhou, Hongyu Yang, Tongxiao Jiang, Aimin Wang and Zhigang Zhang, “A two-stage chirped pulse fiber amplifier system for LASIK,” Laser Phys. 23, 045101(2013). 

20126篇)

           81.   Hongyu Yang, Aimin Wang, and Zhigang Zhang, “Efficient femtosecond pulse generation in an all-normal dispersion Yb:fiber ring laser at 605 MHz repetition rate,” Opt. Lett. 37, 954-956 (2012).

           80.   He Liu, Aimin Wang, Lingjun Jiang, Laurent Bigot, Geraud Bouwmans, Zhigang Zhang, “Sub-30fs pulse generation from dispersion-managed Yb:fiber ring laser incorporating solid-core photonic bandgap fiber,” IEEE Photon. Techno. Lett., 24, 500-502 (2012).

           79.   Peng Li, Aimin Wang, Xi Wang and Zhigang Zhang, “330 MHz, sub 50 fs Yb:fiber ring laser,” Optics Communications, 285, 2430-2432(2012).

           78.   Peng Li, Guizhong Wang, Chen Li, Aimin Wang, Zhigang Zhang, Fei Meng,Shiying Cao, and Zhanjun Fang “Characterization of the carrier envelope offset frequency from a 490 MHz Yb-fiber-ring laser,” Opt. Express, 20, 16017-16022 (2012).

77.     Nikhil Mehta, Jingbiao Chen, Zhigang Zhang, and Zhiwen Liu, “Compressive multi-heterodyne optical spectroscopy,” Opt. Express, 20, 28363-28372 (2012).

76.      Yuqiang Deng,Qing Sun,Shiying Cao,Jing Yu,Chingyue Wang, Zhigang Zhang, “Accurate and automatic characterization of femtosecond optical pulses,Metrologia,” 49, S39 (2012).

20115篇)

75. Dong Hou, Peng Li, Cheng Liu, Jianye Zhao and Zhigang Zhang, “Long-term stable frequency transfer over an urban fiber link using microwave phase stabilization,” Opt. Express 19, 506-511 (2011).

74. S. Fang, K. Yamane, J. Zhu, C. Zhou, Z. Zhang, M. Yamashita, “Generation of sub-900 µJ super- continuum with a two-octave bandwidth based on induced phase modulation in argon-filled hollow fiber,” IEEE Photon. Techno. Lett., 23, 1041-1135 (2011).

73. X. Wang, P. Li, H. Yang, T. Jiang, Y. Ma, Z. Fan, G. Niu, J. Yu, A. Wang, and Z. Zhang, “Microjoule level femtosecond optical pulses with double-cladding fiber-based nonlinear chirped-pulse amplification,” Laser Phys., 21, 1941(2011).

72. Dong Hou, Bo Ning, Peng Li, Zhigang Zhang, Jianye Zhao, “Modeling analysis for phase-locking of a mode-locked laser,” IEEE J. Quantum Electron. 47, 891–898 (2011).    

71. Aimin Wang, Hongyu Yang, Zhigang Zhang, “503MHz repetition rate femtosecond Yb:fiber ring laser with an integrated WDM collimator,” Opt. Express 19, 25412-25417 (2011).

20104篇)

70. Yuqiang Deng, Weijian Yang, and Zhigang Zhang, “Wavelet shape selection for accurate chromatic dispersion measurement of white-light spectral interferograms,” Appl. Phys. B. 98, 347-351 (2010).

69. Yue Cai, Chun Zhou, Meng Zhang, Lingling Chen, and Zhigang Zhang, “Erbium-doped fiber lasers operated in strong normal dispersion regime at low repetition rate,” IEEE Photon. Techno. Lett. 22, 1401-1403 (2010).

68. Ling Ren, Lingling Chen, Meng Zhang, Chun Zhou, Yue Cai and Zhigang Zhang, “Group delay dispersion compensation in Ytterbium doped fiber laser with intracavity Gires-Tournois interferometers,” Opt. & Laser Techno. 42, 1077-1079 (2010).

67. Ding Ma, Yue Cai, Chun Zhou, Weijian Zong, Lingling Chen and Zhigang Zhang, “37.4 fs pulse generation in an Er:fiber laser at a 225 MHz repetition rate,” Opt. Lett. 35, 2858-2860 (2010).

 

200913篇)

66. Lingling Chen, Weijian Yang, Xi Wang and Zhigang Zhang, “Integrative optimization of chirped mirrors for intracavity dispersion compensation,” Opt. Commun. 282, 617–620 (2009).

65. Chun Zhou, Weijian Yang, Guangxiao Zhang, Yue Cai, Jing Li, Peng Li, andZhigang Zhang, “Novel ring-cavity for ytterbium-doped mode-locked fiber laser incorporated with both SESAM and grating pair,” IEEE Photon. Techno. Lett. 21, 3-5 (2009).

64. S. Y. Cao, W. P. Kong, Z. Wang, Z. M. Song, Y. Qin, R. X. Li, Q. Y. Wang, and Z. G. Zhang, “Filamentation control in the temperature gradient argon gas,” Appl. Phys. B 94, 265-271 (2009).

63. Yuqiang Deng, Weijian Yang, Chun Zhou, Xi Wang, Jun Tao, Weipeng Kong, andZhigang Zhang, “Wavelet-transform analysis for group delay extraction of white light spectral interferograms,” Opt. Express, 17, 6038–6043 (2009).

62. L. Chen, M. Zhang, C. Zhou, Y. Cai, L. Ren and Z. Zhang, “Ultra-low repetition rate linear-cavity Erbium-doped fiber laser mode-locked with a semiconductor saturable absorber mirror,” Electron. Lett. 45, 731-733 (2009).

61. Zhenming Song, Zhigang Zhang, Takashi Nakajima, “Transverse-mode dependence of femtosecond filamentation,” Opt. Express, 17, 12217-12229 (2009).

60. M. Zhang, L. L. Chen, C. Zhou, Y. Cai, L. Ren, and Z. G. Zhang, “Mode-locked ytterbium-doped linear-cavity fiber laser operated at low repetition rate,” Laser Phys. Lett. 6, 657-660 (2009).

59. Yue Cai, Guangxiao Zhang, Chun Zhou, Weijian Yang, Meng Zhang, Yu Qin, Weipeng Kong, Dongqing Pang, Zhigang Zhang, “Femtosecond Er doped fiber laser using high modulation depth SESAM based on metal/dielectric hybrid mirror,” Laser Phys. 19, 2023-2026 (2009).

58. Peng Zhang, Yanrong Song, Xinping Zhang and Zhigang Zhang, “Simulation of surface-emitting photoluminescence spectrum in semiconductor disk laser,” J. Opt. A: Pure and Appl. Opt. 11, pp. 045503-5 (2009).

57. Peng Zhang, Yanrong Song, Jinrong Tian, Xinping Zhang, Zhigang Zhang, “Gain characteristics of the InGaAs strained quantum wells with GaAs, AlGaAs, and GaAsP barriers in vertical-external-cavity surface-emitting lasers,” J. Appl. Phys. 105, 053103-1-053103-8 (2009).

56. Yuqiang Deng, Shiying Cao, Jing Yu, Tao Xu, Qiming Fan, Ching-yue Wang andZhigang Zhang, “Wavelet-transform analysis for carrier-envelope phase extraction of amplified ultrashort optical pulses,” Optics and Lasers in Engineering, 47, 1362-1365 (2009).

55. Chun Zhou, Yue Cai, Ling Ren, Peng Li, Shiying Cao, Lingling Chen, Meng Zhang, and Zhigang Zhang. “Passive synchronization of femtosecond Er- and Yb-fiber lasers by injection locking,” Appl. Phys. B 97. 445-449 (2009).

 

20086篇)

54. Wei Jia, Dexiang Zhang, Xun Li, Lu Chai, Zhigang Zhang, Chingyue Wang, “Heat effects of amorphous FeCuNbSiB alloy ablated with femtosecond laser,” Thin Solid Films, vol. 516, 2260-2263 (2008).

53. Weijian Yang, Jing Li, Fan Zhang, Yuanyang Zhang and Zhigang Zhang, “Group delay dispersion measurement of Yb:YAB crystal with white-light interferometry,” Opt. Commun. 281, 679-682 (2008).

52. Zhenming Song, Yu Qin, Guangxiao Zhang, Shiying Cao, Dongqing Pang, Lu Chai, Qingyue Wang and Zhigang Zhang, “Femtosecond pulse propagation in temperature controlled gases-filled hollow fiber,” Opt. Commun. 281, 4109-4113. (2008).

51. Peng Zhang, Yanrong Song and Zhigang Zhang, “Attosecond pulse generation in Thomson scattering with phase controlled few-cycle laser pulses,” Phys. Rev. A 78, 013811 (2008).

50. Ke Yun, Jing Li, Guangxiao Zhang, Lingling Chen, Weijian Yang, and Zhigang Zhang, “A simple and high accuracy technique for optical fiber length measurement by free-running laser configuration,” Opt. Lett. 33, 1732-1734 (2008).

49. Yuqiang Deng, Weijian Yang, Chun Zhou, Xi Wang, Jun Tao, Weipeng Kong, andZhigang Zhang, “Direct measurement of group delay with joint time-frequency analysis of white light spectral interferogram,” Opt. Lett. 33, 2855 (2008).

 

20073篇)

48. J. Kim, J. Chen, Z. Zhang, F. N. C. Wong, F. X. Kärtner, F. Loehl and H. Schlarb, “Long-term femtosecond timing link stabilization using a single-crystal balanced cross-correlator,” Opt. Lett. 32, 1044-1046 (2007).

47. Weijian Yang, Jing Li, Fan Zhang, Yuanyang Zhang, Zhigang Zhang, Guangjun Zhao, Lihe Zheng, Jun Xu and Liangbi Su, “Group delay dispersion measurement of Yb:Gd2SiO5, Yb:GdYSiO5 and Yb:LuYSiO5 crystal with white-light interferometry,” Opt. Express, 15, 8486-8491 (2007).

46. Yue Zhu, Yinzong Wu, Chun Zhou, Peng Li, Yongheng Dai, Shiying Cao, Zhigang Zhang, “Emission spectrum broadening of Nd:YVO4 with femtosecond laser pulse processing,” Opt. Express, 15, 10376-10380 (2007).

20065篇)

45. Xiaochang Ni, Ching-yue Wang, Li Yang, Jianping Li, Lu Chai, Wei Jia, Ruobing Zhang and Zhigang Zhang, “Parametric study on femtosecond laser pulse ablation of Au films,” Appl. Surface Science, Vol. 253, 1616-1619 (2006).

44. Shiying Cao, Ying Wang, Wenjie Huang, Lu Chai, and Chingyue Wang, Jianjun Yang, Xiaonong Zhu and Zhigang Zhang, “Experimental observation on spectrum evolution of femtosecond pulses in filamentation,” Opt. Express, vol.14, 5492-5496 (2006).

43. Yuqiang Deng, Zubin Wu, Shiying Cao, Lu Chai, Chingyue Wang, and Zhigang Zhang, “Spectral phase extraction from spectral shearing interferogram for structured spectrum of femtosecond optical pulses,” Optics Commun. 268, 1-6 (2006)

42. Yongyao Chen, Zhenming Song, Yanfeng Li, Minglie Hu, Qirong Xing, Zhigang Zhang, Lu Chai and Chingyue Wang, “Effective surface plasmon polaritons on the metal wire with arrays of subwavelength grooves” Opt. Express 14, 13021-13029 (2006).

41. Kai Wang, Qi-rong Xing, Huan-yu Li, Jian-ping Li, Zhigang Zhang, Ning Zhang, Lu Chai and Qing-yue Wang, “Optical characteristics of semiconductor saturable absorber mirrors investigated by the reflection Z-scan technique,” Opt. Commun. vol. 265, 369-372 (2006).


20052篇)

40. Yuqiang Deng, Zubin Wu, Lu Chai, Qingyue Wang, K. Yamane, R. Morita, M. Yamashita, and Zhigang Zhang, “Wavelet-transform analysis of spectral shearing interferometry for phase reconstruction of femtosecond optical pulses,” Opt. Express vol.13, 2120-2126 (2005).

39. Yuqiang Deng, Chingyue Wang, Lu Chai, and Zhigang Zhang, “Determination of Gabor wavelet shaping factor for accurate phase retrieval with wavelet-transform,” Appl. Phys. B. 81, 1107-1111 (2005)

 

20041篇)

38. T. Gherman, I. Sagnes, D. Romanini, A. Garnache and Z. Zhang, “Cavity-enhanced absorption spectroscopy with a mode-locked diode-pumped vertical external-cavity surface-emitting laser,” Chem. Phys. Lett. vol 390, 290-295 (2004).

20032篇)

37. Bingyuan Zhang, Gang Li, Meng Chen, Zhigang Zhang and Yonggang Wang, “Passive mode locking of a diode-end-pumped Nd:GdVO4 laser with a semiconductor saturable absorber mirror,” Opt. Lett. vol.28, pp.1829-1831 (2003).

36. Keisaku Yamane, Zhigang Zhang, K. Oka, Ryoji Morita and Mikio Yamashita, Akira Suguro, “Optical pulse compression to 3.4 fs in the monocycle region by feedback phase compensation,” Opt. Lett. vol.28, pp.2258-2260 (2003).

20022篇)

35. Jie Jiang, Zhigang Zhang, Toshifumi Hasama, "Evaluation of chirped-pulse-amplification systems with Offner triplet telescope stretchers", J. Opt. Soc. Am. B, vol. 19, 678-683 (2002).

34. Zhigang Zhang, Yanrong Song, Hong Sun, Darui Sun, Lu Chai and Qingyue Wang, “Compact and material-dispersion-compatible Offner stretcher for chirped pulse amplifications," Opt. Commun. vol. 206, pp. 7-12 (2002).


20014篇)

33. Taisuke Miura, Katsuyuki Kobayashi, Zhigang Zhang, Kenji Torizuka, Fumihiko Kannari, “Reduction of timing jitter with active control in a kHz regenerative amplifier of femtosecond pulse Ti:Al2O3 laser,” Jpn. J. Appl. Phys. 1 40 (3A): 1260-1266 (2001). 

32. Jinghua Sun, Ruobing Zhang, Qingyue Wang, Lu Chai, Dongqing Pang, Jianming Dai, Zhigang Zhang, Kenji Torizuka, Tadashi Nakagawa and Takeyoshi Sugaya, "High-average-power self-starting mode-locked Ti:sapphire laser with a broadband semiconductor saturable-absorber mirror," Appl. Opt. vol 40, 3539-3541 (2001).

31. Jianming Dai, Weili Zhang, Lizhe Zhang, Lu Chai, Yong Wang, Zhigang Zhang, Qirong Xing, Qingyue Wang, Kenji Torizuka, Tadashi Nakagawa and Takeyoshi Sugaya, “A diode-pumped, self-starting, all solid-state self-mode-locked Cr:LiSGaF laser,” Opt. & Laser Techno. Vol. 33, 71-73 (2001).

30. Zhiyi Wei, Yohei Kobayashi, Zhigang Zhang, Kenji Torizuka, “Generation of two-color femtosecond pulses by self-synchronizing Ti:sapphire and Cr:forsterite lasers,” Opt. Lett. vol.26, 1806-1808 (2001).

 

20005篇)

29. Zhigang Zhang, Tadashi Nakagawa, Hideyuki Takada, Kenji Torizuka, Takeyoshi Sugaya and Katsuyuki Kobayashi, “Low-loss broadband semiconductor semiconductor saturable absorber mirror for mode locked Ti:sapphire lasers,” Opt. Commun. vol. 176, pp.171-175 (2000).

28. Zhigang Zhang, Tadashi Nakagawa, Kenji Torizuka, Takeyoshi Sugaya and Katsuyuki Kobayashi, “Gold reflector based semiconductor saturable absorber for femtosecond mode-locked Cr4+:YAG lasers,” Appl. Phys. B. 70 supplement, pp.S59-S62 (2000).

27. Jie Jiang, Toshifumi Hasama, Zhigang Zhang, Takeyoshi Sugaya, Tadashi Nakagawa, “1.25MW peak-power Kerr-lens mode-locked Ti:sapphire laser with a semiconductor saturable absorber mirror,” Opt. Commun. vol.183, pp.159-163 (2000).

26. Taisuke Miura, Katsuyuki Kobayashi, Kazuya Takasago, Zhigang Zhang, Kenji Torizuka, Fumihiko Kannari, “Timing jitter in a kilohertz regenerative amplifier of a femtosecond pulse Ti:Al2O3 laser,” Opt. Lett. vol. 25, pp.1795-1797 (2000).

25. K. Kobayashi, T. Miura, S. Ito, Z. Zhang, K. Torizuka and A. Endo, “Laser pulse timing synchronization to an electron bunch for Compton scattering,”Nucl. Instrum. Meth A 455 (1): 239-243 (2000).


Before 2000

1.    Y. C. Yao and Z. G. Zhang, “Fluctuation mechanism and statistical characteristics of active-passive mode- locking in solid-state lasers”, Appl. Phys. vol. B40, pp. 157-146 (1986).

2.    Zhigang Zhang, N. D. Perry and R. C. Tobin, “Gain measurements at 780 nm in a copper hollow anode cathode laser,” J. Appl. Phys. vol. 71, pp. 64-69 (1992).

3.    Zhigang Zhang, N. D. Perry and R. C. Tobin, “Magnetic field enhanced performance of a copper hollow anode cathode laser,” J. Appl. Phys. vol.71, pp. 5338-5343 (1992).

4.    Zhigang Zhang and Takashi Yagi, “Observation of the dispersion as a function of the pulse width in a mode locked Ti:sapphire laser,” Appl. Phys. Lett. vol. 63, pp. 2993-2995 (1993).

5.    Zhigang Zhang and Takashi Yagi, “Dual-wavelength synchronous operation of a mode locked Ti:sapphire laser based on self-spectrum splitting,” Opt. Lett. vol.18, pp.2126-2128 (1993).

6.    Zhigang Zhang and Takashi Yagi, “KrF laser source with variable pulse width for material processing,” in Laser and ion beam modification of materials, eds. I. Yamada, H. Ishiwara,E. Kamijo, T. Kawai, C. W. Allen and C. W. White (Elsevier, Amsterdam, 1994), pp. 301-308.

7.    Takashi Yagi, H. Kusama and Zhigang Zhang, “Beam manipulation technologies for a KrF excimer laser”, in Laser and ion beam modification of materials, eds. I. Yamada, H. Ishiwara,E. Kamijo, T. Kawai, C. W. Allen and C. W. White (Elsevier, Amsterdam, 1994), pp. 209-217.

8.    Kaoru Minoshima, Hirokazu Matsumoto, Zhigang Zhang and Takashi Yagi, “Simultaneous 3-D Imaging Using chirped ultrashort optical pulses,” Jap. J. Appl. Phys. vol. 33, pp. L1348-L1351 (1994).

9.    Zhigang Zhang and Takashi Yagi, “Evaluation of dispersion in a misaligned grating pair pulse compressor”, J. Appl. Phys. vol.77, pp.937-939 (1995).

10. Zhigang Zhang, Sayaka Harayama, Takashi Yagi and Takashi Arisawa, “Vertical chirp in grating pair stretcher and compressor,” Appl. Phys. Lett. vol. 67, pp.176-178 (1995).

11. Takashi Yagi and Zhigang Zhang, “A terawatt level ultrahigh power and ultrashort pulse compact laser,” Journal of IEE of Japan, vol. 115, pp. 343-346, 1995 (in Japanese).

12. Zhigang Zhang and Takashi Yagi, “Regenerative amplification of femtosecond pulses at 745 nm in Ti:sapphire,” Appl. Opt. vol. 35, pp. 226-229 (1996).

13. Zhigang Zhang, Takashi Yagi and Takashi Arisawa, “Ray-tracing model for stretcher dispersion calculation,” Appl. Opt. vol. 36, pp. 3393-3399 (1997).

14. Zhigang Zhang, Kenji Torizuka, Taro Itatani, Katsuyuki Kobayashi, Takeyoshi Sugaya and Tadashi Nakagawa, “Self-starting modelocked femtosecond forsterite laser using a semiconductor saturable absorber mirror,” Opt. Lett. vol. 22, 1006-1008 (1997).

15. Zhigang Zhang, Kenji Torizuka, Taro Itatani, Katsuyuki Kobayashi, Takeyoshi Sugaya and Tadashi Nakagawa, “Femtosecond Cr:forsterite laser with mode locking initiated by a quantum-well saturable absorber,” IEEE J. Quantum Electron. vol. 33, 1975-1981 (1997).

16. X. Liu, L. Qian, F. Wise, Zhigang Zhang, Taro Itatani, and Kenji Torizuka, “Femtosecond Cr:forsterite laser diode-pumped using a double-clad fiber,” Opt. Lett. vol. 23, pp. 129-131 (1998).

17. X. Liu, L. Qian, F. Wise, Zhigang Zhang; T. Itatani, T. Sugaya, T. Nakagawa, K. Torizuka, “Diode-pumped Cr:forsterite laser mode locked by a semiconductor saturable absorber,” Appl. Opt. vol. 37, pp 7080-7084 (1998).

18. Taisuke Miura, Katsuyuki Kobayashi, Zhigang Zhang, Kenji Torizuka, Fumihiko Kannari, “Cavity-mode analysis of a Kerr-lens mode locked laser with a novel five-mirror cavity,” SPIE vol. 3267, pp. 280-286 (1998).

19. Zhigang Zhang, Kenji Torizuka, Taro Itatani, Katsuyuki Kobayashi, Takeyoshi Sugaya, Tadashi Nakagawa and Hiroshi Takahashi, “Broadband semiconductor saturable absorber mirror for self-starting mode locked femtosecond Cr:forsterite laser,” Opt. Lett. vol. 23, pp. 1465-1467 (1998).

20. Taisuke Miura, Katsuyuki Kobayashi, Zhigang Zhang, Kenji Torizuka, Fumihiko Kannari, “Stable mode-locking operation in a Cr:forsterite laser with a five-mirror cavity,” Opt. Lett. vol. 24, pp. 554-556 (1999).

21. S. R. A. Dods, Zhigang Zhang, and Mutsuo Ogura, “Highly dispersive mirror in Ta2O5/SiO2 for femtosecond lasers designed by inverse spectral theory,” Appl. Opt. vol.38, 4711-4719 (1999).

22. Katsuyuki Kobayashi, Taisuke Miura, Zhigang Zhang, and Kenji Torizuka, “Sub-100 fs timing jitter of a mode locked laser,” SPIE vol. 3616, pp. 156-164 (1999).

23. Taisuke Miura, Katsuyuki Kobayashi, Zhigang Zhang, Kenji Torizuka, Fumihiko Kannari, “Measurement of the timing jitter in a kHz regenerative amplifier system,” Proceedings of SPIE, vol. 3616, pp. 165-172 (1999).  

24. Zhigang Zhang, Tadashi Nakagawa, Kenji Torizuka, Takeyoshi Sugaya and Katsuyuki Kobayashi, “Self-starting mode locked Cr:YAG laser with a broadband semiconductor saturable absorber mirror,” Opt. Lett. vol. 24, pp.1768-1770 (1999).

 

 

 

 

Book & Book Chapters:

 

1.       “Femtosecond laser technologies” (in Chinese), 《飞秒激光技术》张志刚编著,科学出版社2011年3月出版,Zhigang. Zhang. Science Press, March 2011.Beijing,China

2.       K. Torizuka, Z. Zhang, T. Itatani, K. Kobayashi, T. Sugaya and T. Nakagawa, “Femtosecond Technology”, T. Kamiya, F. Saito, O. Wada, and H. Yajima, eds. Springer 1999. Chapter V-4, “Femtosecond pulse generation around 1.3µm employing semiconductor saturable absorber mirrors (SESAM)”, pp. 284-292.

3.       Morita, K. Yamane, Z. Zhang; “Mono-cycle photonics and optical scanning tunnelling microscopy — Route to Femtosecond Angstrom Technology”, Springer Series in Optical Sciences, vol. 99, M. Yamashita, H. Shigekawa, R. Morita (Eds.). 2005. Chapter 4: Amplitude and phase characterization of few-to-mono optical-cycle pulses. pp.153-198.

4.       M. Yamashita, K. Yamane, Z. Zhang, M. Adachi, R. Morita “Mono-cycle photonics and optical scanning tunnelling microscopy — Route to Femtosecond Angstrom Technology”, Springer Series in Optical Sciences, vol. 99, M. Yamashita, H. Shigekawa, R. Morita (Eds.). Chapter 5: Feedback field control for optical pulse generation in the monocycle region. pp.198-250.

5.       Lingling Chen, Meng Zhang and Zhigang Zhang, Chapter 9, “Dispersion compensation devices,” in Frontiers in Guided Wave Optics and Optoelectronics, (Book edited by: Bushnu Pal, ISBN 978-953-7619-82-4, February 2010, INTECH, Croatia), pp. 165-182 (2010).

6.       Zhenming Song, Yun Wei, Shiying Cao, Weipeng Kong, Dongqing Pang, Ruxin Li, Qingyue Wang and Zhigang Zhang, Chapter 17, “Femtosecond filamentation in temperature controlled noble Gas,” in Advances in Solid State Lasers: Development and Applications (Book edited by: Mikhail Grishin, ISBN 978-953-7619-80-0, pp. 630, February 2010, INTECH, Croatia), pp. 387-412 (2010).