朱曉農(南開大學現代光學研究所教授)

朱曉農(南開大學現代光學研究所教授)

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男,1991年畢業於英國St. Andrews大學物理、天文系,獲博士學位。長期從事雷射與光子學前沿研究及其相關技術開發工作。科學出版社《光學與光子學叢書》首屆編委會副主編,中國宇航學會光電技術專業委員會常務委員,《紅外與雷射工程》雜誌編委。曾任南開大學現代光學研究所副所長、光電信息科學與技術教育部重點實驗室主任。

在南開任教期間,為研究生開設全英文授課的“超快雷射光學基礎(Fundamentals of Ultrafast Laser Optics)”課程;幫助倡導成立了“美國光學學會-南開學生分會”,並一直擔任其顧問。在所帶研究生中,二人次獲南開大學優秀博士論文獎和天津市優秀博士論文獎(同時獲百篇全國優秀博士論文提名)。2013年,所指導的研究生獲美國光學學會“Optics & Photonics News”雜誌第8屆“After Image Photo Contest”一等獎和榮譽獎。

基本介紹

  • 中文名:朱曉農
  • 職業:主要研究領域:超快雷射光學與套用,先進固體雷射技術
  • 畢業院校:英國St. Andrews大學物理、天文系,獲博士學位
  • 代表作品:《光學與光子學叢書》、《紅外與雷射工程》
人物經歷,研究方向,主要貢獻,承擔國家項目,專利,

人物經歷

1993-1995年在加拿大Laval大學雷射光電子中心做博士後研究。2002年回國前先後在英國St. Andrews大學,加拿大Toronto大學,美國Quantronix公司,加拿大國家研究院集成製造技術研究所,加拿大JDS-Uniphase公司任職十餘年。

研究方向

主要研究領域:超快雷射光學與套用,先進固體雷射技術。。
朱曉農

主要貢獻

承擔國家項目

1.國家科技部重大基礎研究前期專項“飛秒雷射超微細加工”,2002 年。
2.國家自然科學基金項目“超短脈衝雷射超微細加工中的臨界脈衝寬度問題研究”,2004 年。
3.國家自然科學基金重點項目“超短脈衝雷射燒蝕推進新技術的基礎研究”,2007年。
4.國家自然科學基金重點項目“折/衍混合成像元件的飛秒雷射超精細加工技術及套用研究”,2012年(與吉林大學合作)。
5.國家自然科學基金面上項目“超短脈衝雷射多光子電離顯微術研究”,2013 年。
近年來發表百餘篇SCI文章以及多項發明專利。
Publication List
JOURNAL ARTICLES (*Corresponding author)
1. Xu, Z., Zhu, X.*, Yu, Y., Zhang, N., and Zhao, J. 2014. Super-luminescent jet light generated by femtosecond laser pulses, Scientific Reports | 4: 3892 | DOI: 10.1038/srep03892 (Published online on Jan. 27, 2014).
2. Bao, W., Zhang, N., and Zhu, X.* 2013. Study of dispersion compensation effect of femtosecond laser amplifier using home-made third-order autocorrelator, Optics & Laser Technology, 54, 242-248.
3. Yang, J., Zhang, N., and Zhu, X. 2013. Investigation of the ultrafast phase evolution of the ejected material generated during femtosecond laser ablation of aluminum by the coherent light illuminated Schlieren apparatus, Physica Sinica, 62, 134203 (in Chinese).
4. Zhang, N., Yang, J., Bao, X., and Zhu, X. 2013. Determination of temporal structure of femtosecond laser pulses by means of the laser-induced air plasma, Chinese Physics B, 22, 054209.
5. Tang, Y., Yang, J., Zhao, B., Wang, M., and Zhu, X. 2012. Control of periodic ripples growth on metals by femtosecond laser ellipticity, Optics Express, 20, 25826-25833.
6. Yang, J., Yang, Y., Zhao, B., Wang, Y., and Zhu, X. 2012. Femtosecond laser-induced surface structures to significantly improve the thermal emission of light from metals, Appl Phys B, 106, 349–355.
7. Xue, L., Yang, J., Yang, Y., Wang, X., and Zhu, X. 2012. Creation of periodic subwavelength ripples on tungsten surface by ultra-short laser pulses, Appl Phys A, 109, 357–365.
8. Zhang, N., Wu, Z., Xu, K., and Zhu, X. 2012. Characteristics of micro air plasma produced by double femtosecond laser pulses, Optics Express, 20, 2528-2538.
9. Sun, X., Liu, L., Hu, Y., Duan, J., Liao, P., and Zhu, X.* 2012. Characteristics of core refractive index axial asymmetry LPFGs written by femtosecond laser, Int. J. Nanomanufacturing, 8, 340-346.
10. Sun, X., Huang, P., Zhao, J., Wei, L., Zhang, N., Kuang, D., and Zhu, X*. 2012. Characteristic control of long period fiber grating (LPFG) fabricated by infrared femtosecond laser, Frontiers of Optoelectronics, 5, 334-340.
11. Zhang, N., Yang, J., and Zhu, X.* 2012. Investigation of the Ultrafast process of femtosecond laser ablation of highly oriented pyrollytic graphite, Chinese Journal of Laser, 39, 0503002 (in Chinese).
12. Zhang, N., Xu, Z., Zhu, X.*, Xu, K., Yang, J., Wu, Z., Liang Y., and Wang, M. 2011. Laser propulsion technology, Infrared and Laser Engineering, 40, 1025-1037 (in Chinese).
13. Xu, K., Liang, Y., and Zhu, X.* 2011. Enhancement of imaging depth and definition for optical coherence tomography by using sodium chloride agent, Optik, 122, 2181-2185.
14. Zhang, N., Wang, W., Zhu, X., Liu, J., Xu, K., Huang, P., Zhao, J., Li, R., and Wang, M. 2011. Investigation of ultrashort pulse laser ablation of solid targets by measuring the ablation-generated momentum using a torsion pendulum, Optics Express, 19, 8870-8878.
15. Wu, Z., Zhang, N., Wang, M., and Zhu, X.* 2011. Femtosecond laser ablation of silicon in vacuum and air, Chinese Optics Letters, 9, 093201 (1-4).
16. Wu, Z., Zhu, X., and Zhang, N. 2011. Time-resolved shadowgraphic study of femtosecond laser ablation of aluminum under different ambient air pressures, J. Appl. Phys., 109, 053113(1-8).
17. Li, S., Han, P., Shi, M., Yao, Y., Hu, B., Wang, M., and Zhu, X., 2011. Low-loss channel optical waveguide fabrication in Nd3+-doped silicate glasses by femtosecond laser direct writing, Optics Express, 19, 23958-23964.
18. Ma, F., Yang, J., Zhu, X., Liang, C., and Wang, H. 2010. Femtosecond laser-induced concentric ring microstructures on Zr-based metallic glass, Applied Surface Science, 256, 3653-3660.
19. Yang, J., Wang, R., Liu, W., Sun, Y., and Zhu, X. 2009. Investigation of microstructuring CuInGaSe thin films with ultrashort laser pulses, J. Phys. D: Appl. Phys. 42, 215305.
20. Yang, Y., Yang, J., Liang, C., Wang, H., Zhu, X., and Zhang, N. 2009. Surface microstructuring of Ti plates by femtosecond lasers in liquid ambiences, a new approach to improving biocompatibility, Optics Express, 17, 21124-21133.
21. Liu, Y., Liang, Y., Mu, G., and Zhu, X. 2009. Deconvolution methods for image deblurring in optical coherence tomography, Journal of Optical Society of America A, 26, 72-77.
22. Zhao, Y., Liang, Y., Zhang, N., Wang, M., and Zhu, X.* 2008. Pulse width effect in ultrafast laser ionization imaging, Opt. Lett. 33, 2467-2469.
23. Zhu, X., Liang, Y., Mao, Y, Jia, Y., Liu Y., and Mu, G. 2008. Analyses and calculations of noise in optical coherence tomography systems, Frontiers of Optoelectronics in China, 1, 247-257.
24. Zhao, Y., Liang, Y., and Zhu, X.* 2008. Applications of scanning femtosecond laser-induced ionization microscopy in biological imaging, Frontiers of Optoelectronics in China, 1, 201-204.
25. Xu, Z., Liu, W., Zhang, N., Wang, M., and Zhu, X. 2008. Effect of intensity clamping on laser ablation rate by intense femtosecond laser pulses, Optics Express, 16, 3604-3606.
26. Zhang, N., Liu, W., Xu, Z., Wang, M., and Zhu, X. 2008. Experimental study and numerical simulation of the propulsion of microbeads by femtosecond laser filament, Journal of Applied Physics, 104, 033104.
27. Wang, X., Zhang, N., Zhao, Y., Li, Z., Zhai, H., and Zhu, X. 2008. Determination of air ionization threshold with femtosecond laser pulses, Acta Physica Sinica, 57, 354-357 (in Chinese).
28. Gong, X., Chu, J., Wang, X., Huang, W., Yang, J., Zhang, T., and Zhu, X. 2008. Application of femtosecond laser multifocusing to parallel fabrication, Optics and Precision Engineering, 16, 48-54 (in Chinese).
29. Zhang, N., Zhu, X.*, Yang, J., Wang, X. and Wang, M. 2007. Time-resolved Shadowgraphs of Material Ejection in Intense Femtosecond Laser Ablation of Aluminum, Physical Review Letters, 99, 167602.
30. Yang, J., Zhang, N., and Zhu, X.* 2007. Self-induced nonlinear polarization change of femtosecond laser pulse propagation in an optically isotropic glass, Applied Physics B, 89, 261-266.
31. Jia, Y., Liang, Y., and Zhu, X.* 2007. Simulation of optical coherence tomography using Monte Carlo method Acta Physica Sinica, 56, 3861-3866 (in Chinese).
32. Yang, J., Liu, W., and Zhu, X.* 2007. A study of ultrafast electron diffusion kinetics in ultrashort-pulse laser ablation of metals, Chinese Physics, 16, 2003-2010.
33. Zhu, X., Mao, Y., Liang, Y., Jia, Y., and Mu, G.. 2007. Noise analyses of optical coherence tomography systems (I)-Theories and calculations, Acta Photonica Sinica, 36, 452-456 (in Chinese)
34. Gong, X., Chu, J., Yang, J., Zhang, T., and Zhu, X. 2007. An improved way for fabricating micro-waveguide by femtosecond laser, Optics and Precision Engineering, 15, 27-32 (in Chinese)
35. Zhu, X., Mao, Y., Liang, Y., Jia, Y., and Mu, G.. 2007. Noise analyses of optical coherence tomography systems (II)-Fourier domain and time domain OCT systems, Acta Photonica Sinica, 36, 457-461 (in Chinese)
36. Yang, J., Zhao, Y., and Zhu, X.* 2007. Theoretical studies of ultrafast ablation of metal targets dominated by phase explosion, Appl. Phys. A, 89, 571-578.
37. Liu, Y., Liang, Y., Tong, Z., Zhu, X., and Mu, G. 2007. Contrast enhancement of optical coherence tomography images using nonlinear fitting and histogram matching, Opt. Communications, 279, 23-26.
38. Zhao, Y., Jia, Y., Yang, J., and Zhu, X.* 2007. Influence of a half-wave plate-polarizer attenuator on broadband femtosecond laser pulses, Optical Engineering, 46, 044301.
39. Zhao, Y., Mu, G., and Zhu, X.* 2006. Nonlinear imaging of embedded micro structures inside transparent materials with laser-induced ionization microscopy, Optics Letters, 31, 2765.
40. Zhao, Y., Zhang, N., Yang J., and Zhu, X.* 2006. Laser-induced air ionization microscopy, Applied Physics Letters, 88, 241102.
41. Zhang, N., Yang, J., Wang, M., and Zhu, X.* 2006. Fabrication of long-period fiber gratings using 800 nm femtosecond laser pulses, Chinese Physics Letter, 23, 3281-3284.
42. Yang, J., Zhao, Y. and Zhu, X.* 2006. Transition between nonthermal and thermal ablation of metallic targets under the strike of high-fluence ultrashort laser pulses, Applied Physics Letters, 88, 094101.
43. Cao, S., Wang, Y., Huang, W., Chai, L., Wang, C., Yang, J., Zhu, X., and Zhang, Z. 2006. Experimental observation on spectrum evolution of femtosecond pulses in filamentation, Optics Express, 14, 5492-5496.
44. Cao, S., Zhang, Z., Chai, L., Wang, Q., Yang, J., and Zhu, X. 2006. Dependence of spectrum broadening on inner diameter of capillary restricting the filamentation in high pressure gas, Acta Physica Sinica, 55, 5294-5297 (in Chinese).
45. Jia, Y., Liang, Y., and Zhu, X.* 2006. Analysis of Fast Scanning System in Optical Coherence Tomography, Chin J Laser & Med Surg., 15, 62-65 (in Chinese).
46. Jia, Y., Yan, P., Lu, K., Zhang, T., and Zhu, X.* 2006. Experimental study and numerical analysis of femtosecond pulse propagation and supercontinuum generation in highly nonlinear photonic crystal fiber, Acta Physica Sinica, 55, 1809-1814 (in Chinese).
47. Wang, X., Wang, Y., Zhai, H., Zhu, X., and Mu, G.. 2006. Pulsed digital holographic recording of ultra-fast process of the femto-second order, Acta Physica Sinica, 55, 4613-4617 (in Chinese).
48. Yan, P., Li, Y., Ding, L., Zhang, W., Lu, K., Jia, Y., Zhang, T., Zhu, X., Su, H., and Guo, Q. 2006. Highly efficient antistokes generation in irregularly multicore microstructure fiber with double zero-dispersion wavelengths, Microwave and Optical Technology Letters, 48, 389-393.
49. Yang, X., Jia, Y., Zhao, Y., Zhang T., and Zhu, X.* 2005. Dispersion of linearly polarized light propagating in a thin birefringent plate, Journal of Optical Society of America A, 22, 752-759.
50. Yan, P., Jia, Y., Su, H., Li, Y., Ding, L., Zhang, W., Lu, K., Hou, L., Zhou, G., and Zhu, X. 2005. Broadband continuum generation in an irregularly multicore microstructured optical fiber, Chinese Optics Letters, 3, 355-357.
51. Mao, Y., Guo, J., Liang, Y., Jia, Y., Zhao, Y., and Zhu, X.* 2005. Analysis of noise characteristics in an optical coherence tomographic system, Acta Optica Sinica, 25, 324-330 (in Chinese).
52. Jia, Y., Liang, Y., Wang, M., and Zhu, X.* 2005. High resolution optical coherence tomography using femtosecond Ti:Al2O3 laser, Journal of Optoelectronics Lasers, 16, 409-412 (in Chinese)
53. Zhang, N., Zhao, Y., and Zhu, X. 2004. Light propulsion of micro beads with femtosecond laser pulses, Optics Express, 12, 3590-3598.
54. Jia, Y. and Zhu, X.* 2004. Discussion on dispersion characteristics of a titlted birefringent filter, Acta Physica Sinica, 53, 3065-3070 (in Chinese).
55. Jia, Y., Zhao, Y., and Zhu, X.* 2004. Study of dispersion characteristics of Fabry-Perot Etalons as fiber optic communication components, Journal of Optoelectronics Lasers, 15, 156-159 (in Chinese).
56. Yang, X., Liu, T., Zhao, Y., Jia, Y., Wang, M., Zhang, T., and Zhu, X.* 2004. Measurement and analysis of sunlight and sky light spectra, Acta Nankai University, 37, 69-74 (in Chinese).
57. Zhu, X., 2000. A new method for determining critical pulse width in laser material processing, Applied Surface Science 167, 230-242.
58. Armstrong, M., Zhu, X., Montgomery, J., and Miller, R. J. D. 2000. Novel composite structure Nd:YAG gain media for high power scaling of side-pumped configurations, Optics Communications, 175, 201-207.
59. Dupont, E., Zhu, X., Chiu, S., Moisa, S., Buchanan, M., Gao, M., Liu, H.C., and Corkum, P. B. 2000. In-situ repair of optoelectronic devices with femtosecond laser pulses, Semiconductor Science and Technology, 15, L15-L18.
60. Zhu, X., Villeneuve, D. M., Naumov, A. Yu., and Corkum, P. B. 1999. Influence of laser parameters and material properties on micro drilling with femtosecond laser pulses, Applied Physics A, 69, S367-S371.
61. Armstrong, M., Zhu, X., Gracewski, S., and Miller, R. J. D. 1999. Development of a 25 W TEM00 diode-pumped Nd:YLF laser, Optics Communications, 169, 141-148.
62. Zhu, X., Villeneuve, D. M., Naumov, A. Yu., Nikumb, S. K., and Corkum, P. B. 1999. Experimental study of drilling sub-10 mm holes in thin metal foils with femtosecond laser pulses, Applied Surface Science, 152, 138-148.
63. Zhu, X., Piché, M., Goodno, G. D., and Miller, R. J. D. 1997. Polarization-dependent spectral modulation in femtosecond Ti:sapphire lasers, Optics Communications, 145, 123-127.
64. Zhu, X., Piché, M., and Sibbett, W. 1996. Influence of resonant absorption on the propagation of femtosecond pulses in an Er-doped optical fiber, Optics Communications, 127, 127-134.
65. Zhu, X., Cormier, J.-F., and Piché, M. 1996. Study of dispersion compensation in femtosecond lasers, Journal of Modern Optics, 43, 1701-1721.
66. Piché, M., Cormier, J.-F., and Zhu, X. 1995. Bright optical soliton in the presence of fourth-order dispersion, Optics Letters, 21, 845-847.
67. Zhu, X. 1994. Explicit Jones transformation matrix for a tilted birefringent plate with its optic axis parallel to the plate surface, Applied Optics, 33, 3502-3506.
68. Su, Z., Zhu, X., and Sibbett, W. 1993. Conversion of femtosecond pulses from the 1.5- to the 1.3-μm region by selfphase-modulation-mediated four-wave mixing, Journal of Optical Society of America B, 10, 1050-1053.
69. Boardman, A. D., Steele, A., Wilkins, M., Sibbett, W., and Zhu, X. 1993. Computational study of a coupled-cavity colour-centre laser, Pure and Applied Optics, 2, 277-298.
70. Chen, J., Zhu, X., and Sibbett, W. 1992. Rate equation studies of erbium-doped fiber lasers with common pump and laser energy bands, Journal of Optical Society of America B, 9, 1876-1882.
71. Chen, J., Zhu, X., and Sibbett, W. 1992. Derivation of threshold pump power of erbium doped fibre laser, Optics Letters, 17, 926-928.
72. Zhu, X., Sleat, W., Walker, D., and Sibbett, W. 1991. Pulse evolution in a coupled-cavity mode-locked KCl:Tl colorcenter laser, Optics Communications, 82, 406-414.
73. Zhu, X., and Sibbett, W. 1991. Propagation characteristics of femtosecond pulses in erbium doped monomode optical fibers, IEEE Journal of Quantum Electronics, 27, 101-113.
74. Zhu, X. and Sibbett, W. 1990. Intracavity characterisation of erbium-doped fiber using a coupled-cavity mode-locked KCl:Tl color center laser, Optics Communications, 76, 340-344.
75. Zhu, X. and Sibbett, W. 1990. Experimental study of the primary mode-locking parameters of a coupled-cavity KCl:Tl color center laser, Journal of Optical Society of America B, 7, 2187-2191.
76. Zhu, X., Finch, A., and Sibbett, W. 1990. Pulse shaping effect in a coupled-cavity mode-locked KCl:Tl laser, Journal of Optical Society of America B, 7, 1221-1224.
77. Zhu, X., Finch, A., and Sibbett, W. 1990. Frequency-chirp compensation in a coupled-cavity mode-locked KCl:Tl laser, Journal of Optical Society of America B, 7, 187-192.
78. Finch, A., Zhu, X., Kean, P. N., and Sibbett, W. 1990. Noise characterization of mode-locked color-center laser sources, IEEE Journal of Quantum Electronics, 26, 1115-1123.
79. Zhu, X., Kean, P. N., and Sibbett, W. 1989. Spectral and temporal characterizations of coupled-cavity mode locking in a KCl:Tl color center laser, IEEE Journal of Quantum Electronics, 25, 2445-2453.
80. Zhu, X., Kean, P. N., and Sibbett, W. 1989. Coupled-cavity mode-locking of a KCl:Tl laser using an erbium-doped optical fiber, Optics Letters, 14, 1192-1194.
81. Kean, P. N., Zhu, X., Crust, D. W., Grant, R. S., Langford, N., and Sibbett, W. 1989. Enhanced mode-locking of color center lasers, Optics Letters, 14, 39-41.
CONFERENCE PRESENTATIONS (*Presenter)
1. Xu, Z., Yu, Y., Zhang, N. and Zhu, X.* Super-luminescent jet like coherent light beam produced in femtosecond laser ionization of air, The 10th National Symposium on Optics Front, 2013. Oct. 20-23, Anhui, Yellow Mountain (Invited talk); 徐智君,于洋,張楠,朱曉農*,飛秒雷射脈衝電離空氣時產生的超亮噴射狀相干光束,第十屆全國光學前沿問題討論會. 2013.10.20-23 安徽 黃山(邀請報告).
2. Xu, J., Yu, Y., Zhang, N., Zhao J., and Zhu, X. Generation of Super-luminescent Jet Light through Disrupted Conical Emission, Paper QW1E.5, CLEO’13, Jun. 9- Jun. 14, San Jose, USA.
3. Zhu, X.*, Xu, Z., Yu, Y. and Zhang, N. New superluminescent jet-like optical beam generation with focused femtosecond laser pulses, International Workshop: Progress in Ultrafast Laser Modifications of Materials, Cargese, Corsica, France; 2013. April 15-19. (Invited talk)
4. Xu, J., Zhu, X., Zhang, N., and Yu, Y. Observation of Super-luminescent Jet Beam From Femtosecond Laser-induced Air Plasma, Paper WPB-1, CLEO/Pacific Rim 2013, Jun. 30 - July. 4, Kyoto, Japan.
5. Yu, Y., Xu, J., Zhang, N., and Zhu, X., Characteristics of Electron Density in Air Plasma Produced by Tightly-Focused 50 Fs Laser Pulses , Paper WPB-2, CLEO/Pacific Rim 2013, Jun. 30 - July. 4, Kyoto, Japan.
6. Zhu, X., Zhang, N., Wu, Z., Yu, Y., Yang, J. and Bao, W. Three steps of femtosecond laser ablation- analysis and understanding of plume dynamics in solid targets ablated by ultrashort pulse laser, The 10th National Symposium on Opto-electronics, 2012. 6. 12-14, Beijing (Invited talk); 朱曉農,張楠,吳澤華,于洋,楊景輝,包文霞,飛秒雷射燒蝕的三部曲 - 超短脈衝雷射作用下固體靶材燒蝕演化過程的分析與理解,第十屆全國光電學術交流會. 2012. 6.12-14, 北京(邀請報告).
7. Zhu, X.*, Zhang, N., Wu, Z., Xu, K. Investigation of air plasma produced by double femtosecond laser pulses, IQEC/CLEO Pacific Rim, Paper 4700-PO-122, Aug. 28 – Sep. 1, 2011, Sydney, Australia.
8. Xu, K., Zhang, N., and Zhu, X.* Investigation of a peculiar diffraction pattern recorded by a CCD camera under coherent light illumination, International Symposium on Photoelectronic Detection and Imaging (ISPDI 2011) May 24 – 26, 2011, Beijing (Invited talk).
9. Zhu, X., and Bao, W. Map of learning for ultrafast laser optics, Annual meeting of Chinese Optics Society 2011, Shenzhen; 朱曉農,包文霞,超快雷射光學學習路線圖,中國光學學會2011 年學術年會,2011.8,深圳.
10. Xu, K., Wu, Z., Zhang, N., and Zhu, X.* Characterization of micro air plasma and plume dynamics associated with femtosecond laser ablation of solid targets, The 2nd China National Symposium on High Energy Density Physics and China-Japan CUP Seminar on Laser Plasma Physics, Shanghai Jiao Tong University, China, October 13-16, 2010 (Invited talk).
11. Zhu, X., Characterization of micro air plasma and plume dynamics associated with femtosecond laser ablation of solid targets, LPHYS’10, 2010, July 5-9, Foz do Iguacu, Brazil. (Invited talk)
12. Zhu, X., Exploration of applications of ultrashort pulse laser – ablative laser propulsion and laser ionization microscopy, The 9th National Symposium on Opto-electronic Technologies, 2010, May 29-31, Beijing, China. (Invited talk)
13. Sun, X., Wang, X., Yang, J., Yao, Y., Xu, Z., Li, Y, Wei, L., and Zhu, X.*, Applications of ultrashort pulse laser in micro- nano-machining of functional materials, The 7th Asia-Pacific Laser Symposium, 2010, May. 11-15, Jeju Island, Korea. (Invited talk)
14. Yang, Y., Yang, J., Liang, C., Wang, H., and Zhu, X., Fusion of biocompatible Ca/P elements with implantable metals by femtosecond laser micro-structuring in liquids, CLEO/Pacific Rim 2009, Aug. 31- Sept.3, Shanghai.
15. Xu, K., Liang, Y., and Zhu, X., Enhancement of imaging depth and definition for optical coherence tomography by using sodium chloride agent, CLEO/Pacific Rim 2009, Aug. 31- Sept.3, Shanghai.
16. Zhu, X.* and Zhang, N., Investigation of ultrashort pulse laser propulsion using time-resolved shadowgraphy and torsion pendulum, Proceedings of SPIE, 7382, 738208 (2009).(Invited talk)
17. Zhang, N., Wang, W., Liu, J., Li, L., and Zhu, X.*, Measuring the impulse momentum coefficient in ultrashort pulse laser ablation propulsion with a torsion balance, The 1st National Symposium on High Energy Density Physics, 2009.
12,Chendu, China (Invited talk); 張楠,王文濤,劉建勝,李儒新,朱曉農*,利用扭秤測量和研究超短雷射脈衝燒蝕推進的衝量耦合係數,第一屆全國高能量密度物理會議,2009. 12, 成都(邀請報告).
18. Zhu, X.*, Zhao, Y., Liang, Y., and Liu, Y., Introduction to a new type of nonlinear imaging method - USP laser induced ionization microscopy, International conference on optical instrument and technology, OIT’ 09, Shanghai. (Invited talk)
19. Zhu, X.*, Beam quality control of solid-state lasers with asymmetrical thermal lensing and design of a Gaussian-Flat top beam profile converter, The19th National Symposium on Lasers, 2009. 10. 18-21, Beijing, China (Invited talk); 朱曉農,“非對稱動態熱透鏡條件下固體雷射器光束質量的控制與最佳化及高斯光束-平頂光束變換器的設計研究”,第十九屆全國雷射學術會議,2009. 10. 18-21,北京(邀請報告).
20. Zhu, X.*, Dynamics of ultrashort pulse laser ablation of solid targets and its application in light propulsion, The CCAST-WL Workshop on Strong Field Laser Physics, 2008, Oct. 23-26, QingDao, China. (Invited talk)
21. Zhu, X.* and Zhang N. 2008. Ultrashort pulse laser ionization microscopy, Proc. SPIE, 7276 72760W. (Invited paper)
22. Wu, Z., Zhang, N., Yang, J., and Zhu, X. 2008. Investigation of the dynamic process of high fluence femtosecond laser ablation of aluminum by ultrafast time-resolved shadowgraphy. Proc. SPIE, 7276, 72760V.
23. Liu, Y., Liang, Y., Mu, G., and Zhu, X. 2007. Two-dimensional image sharpening in optical coherence tomography by deconvolution, Optics in health Care and Biomedical Optics III, Proc. of SPIE Vol.6826, 682608.
24. Zhao, Y., Liang, Y., Yang, J., Wang, M., and Zhu, X. 2007. Bio-imaging with femtosecond laser induced ionization microscopy, CLEO’07, CTuV4, Baltimore, USA.
25. Zhu, X.*, Zhao, Y. and Yang, J. 2005. Nonthermal and thermal ablation of metallic targets with high-fluence ultrashort laser pulses, International Winter Workshop on Ultrafast Intense Laser Science – Propagation and Material Processing, Quebec City, Canada.
26. Liu, T., Zhao Y., Zhang, T., Wang, M., and Zhu, X. 2004. Investigation of Spatial Beam Profiles of a Femtosecond Ti:Sapphire Laser Amplifier, HIGH-POWER LASERS AND APPLICATIONS III, Proc. of SPIE 5627, 499-504.
27. Wang, Y., Wang, X., Zhang, N., Zhai, H., and Zhu, X. 2004. Study of ambient air ionization with femtosecond laser pulses, HIGH-POWER LASERS AND APPLICATIONS III, Proc. of SPIE 5627, 105-111.
28. Zhu, X.* and Fu, R. 2002. Emission spectra of micro plasma generated by fs laser pulses, High-Power Lasers and Applications II. Proc. SPIE Vol. 4914, 53-62.
29. Zhu, X.*, Naumov, A., Villeneuve, D., and Corkum, P. 1999. Influence of laser parameters and material properties on micro drilling with femtosecond laser pulses, 5th international Conference on Laser Ablation (COLA’99), Gottingen, Germany, July 19-24 1999. Paper 294.
30. Zhu, X.*, Armstrong, M., and Miller, R. J. D. 1999, Development of a 25 W TEMoo diode-pumped Nd:YLF laser. Technical Digest of CLEO'99, Baltimore, USA, May 23-28 1999, paper CtuK29.
31. Naumov, A. Yu., Przygodzki, C., Zhu, X., and Corkum, P. B. 1999, Microstructuring with femtosecond laser inside silica glasses. Technical Digest of CLEO'99, Baltimore, USA, May 23-28 1999, paper CThC2.
32. Piche, M., Cormier, J. F., Beloahlou, A, Richard, I., Zhu, X., and Deblois, S. 1997. Solitons in femtosecond lasers, Applications of Photonic Technology 2, Plenum Press, New York, NY, USA. P61-8.
33. Bélanger, B., Galstian, T., Zhu, X., and Piché, M. 1997. Optical measurements using Bessel beams, Applications of Photonic Technology 2, Plenum Press, New York, NY, USA. P825-30.
34. Zhu, X.*, Piché, M., Goodno, G., and Miller, R. J. D. 1996. Control of the spectral profiles in femtosecond Ti:sapphire lasers, Annual Congress of Canadian Association of Physicists, Ottawa, Canada, June 16-19 1996. Physics in Canada, vol. 52 (May/June), paper RA3.
35. Paquet, C., Zhu, X., Tremblay, R., McCarthy, N., and Piché, M. 1996. Diffraction d'impulsions laser ultra-brèves par une ouverture, Annual Congress of Canadian Association of Physicists, Ottawa, Canada, June 16-19 1996. Physics in Canada, vol. 52 (May/June), paper PD16.
36. Zhu, X.*, Piché, M., and Cormier, J.-F. 1995. Optimization of dispersion and self-phase modulation in self-mode locked femtosecond lasers, Annual Congress of Canadian Association of Physicists, Quebec, Canada, June 11-16 1995. Physics in Canada, vol. 51 (May/June), paper VE6.
37. Zhu, X., 1995. Dispersion characteristics of a tilted birefringent filter, Annual Congress of Canadian Association of Physicists, Quebec, Canada, June 11-16 1995. Physics in Canada, vol. 51 (May/June), paper ZQ12.
38. Piché, M. and Zhu, X. 1995. Kinematic mode locking: a model based on four-wave mixing, Annual Congress of Canadian Association of Physicists, Quebec, Canada, June 11-16 1995. Physics in Canada, vol. 51 (May/June), paper ZQ16.
39. Bélanger, B., Zhu, X., and Piché, M. 1995. Auto-imagerie en géométrie cylindrique à l'aide de faisceaux Bessel, Annual Congress of Canadian Association of Physicists, Quebec, Canada, June 11-16 1995. Physics in Canada, vol. 51 May/June), paper EB2.
40. Anctil, G., Cormier, J. F., Zhu, X., McCarthy, N., and Piché, M. 1995. Conditions d'opération d'un laser Cr:LiSAF, Annual Congress of Canadian Association of Physicists, Quebec, Canada, June 11-16 1995. Physics in Canada, vol. 51 (May/June), paper ZQ13.
41. Zhu, X.*, Cormier, J. F., and Piché, M. 1994. Dispersion compensation inside a femtosecond laser cavity, Proceeding of Laser'94, Quebec, Canada, December 12-16 1994, paper TN.7.
42. Zhu, X. 1994. Measurement of ultrashort laser pulses (invited talk). Workshop of Optical Detectors, Organized by the Optical Society of America (Quebec Section), Quebec, Canada, May 4, 1994.
43. Piché, M., Zhu, X., Plomteux, O., Martin, F., Dufresne, C., and Vallée, R. 1994. Instabilities of coupled-cavity modelocked lasers. Technical Digest of the European Quantum Electronics Conference, Amsterdam, The Netherlands, August 28-September 2 1994, paper QThC4.
44. Zhu, X.* and Piché, M. 1993. Physical description of kinematic mode locking, SPIE's International Symposium, Optics Quebec '93, Quebec, Canada, August 16-20 1993, paper 2041-04.
45. Zhu, X.* and Piché, M. 1993. Estimation of the noise limit in a perfectly mode-locked laser, Technical Digest of the Optical Society of America Annual Meeting, Toronto, Canada, October 3-8 1993, paper WR42.
46. Zhu, X.*, Sleat, W., Walker, D., and Sibbett, W. 1991. Pulse evolution in a coupled-cavity mode-locked KCl:Tl colorcenter laser, Ultrafast Phenomena VII, 87-89. Editors Harris, C. B., Ippen, E. P., Mourou, G. A., and Zewail, A. H. Springer Series in Chemical Physics, no. 53. Berlin: Springer-Verlag.
47. Zhu, X.* and Sibbett, W. 1991. Observation of spectral narrowing for femtosecond pulses propagating in monomode optical fibres, Proceeding of VIIth International Symposium on Ultrafast Processes in Spectroscopy, Bayreuth, Germany, October 7-10 1991, paper Th 1-2.
48. Zhu, X.* and Sibbett, W. 1991. Femtosecond characterization of an Er-doped monomode fibre using a coupled-cavity mode-locked KCl:Tl colour-centre laser, Technical Digest of the European Quantum Electronics Conference and the 10th National Quantum Electronics Conference, Edinburgh, UK, August 27-30 1991, paper Tu2.
49. Zhu, X.* and Sibbett, W. 1990. Experimental study of the primary mode-locking parameters of a coupled-cavity modelocked KCl:Tl color-centre laser, Technical Digest of CLEO'90, Anaheim USA, May 16-18 1990, paper CFN4.
50. Zhu, X.*, Finch, A., and Sibbett, W. 1989. Intracavity and extracavity chirp compensation in a CCM KCl:Tl laser, 9 National Quantum Electronics Conference (QE-9), Oxford, UK, September 18-22 1989, paper 41.
51. Finch, A., Burns, D., Zhu, X., Sleat, W., and Sibbett, W. 1989. Noise characterisation of mode-locked laser sources using high-speed InGaAs photodetectors, IEE Colloquium on Applications of Ultrashort Pulses for Optoelectronics, London, UK, May 26 1989, paper 87.

專利

1. 朱曉農,孫小燕,趙捷峰,黃鵬,張楠,“一種基於Mie 散射的光纖衰減器的結構單元及其套用”,中國專利號:ZL 201110007879.9(發明專利證書號第1317352 號),授權公告日:2013年12 月4 日。
2. 朱曉農,趙友博,梁艷梅,“超短脈衝雷射誘導的多光子電離非線性顯微成像方法和系統及其套用”,中國專利號:ZL 200610129630.4(發明專利證書號第539725 號),授權公告日:2009 年8 月19 日。
3. 楊建軍、張楠、楊陽、黃鵬、朱曉農,“利用雷射製備微結構靶提高雷射推進衝量耦合係數的方法”,中國專利號:ZL 201110087843.6(發明專利證書號第1232252 號),授權公告日:2013年7 月10 日。
4. 梁艷梅,許寬宏,王瑩利,朱曉農,“ 提高光學相干層析術成像清晰度和探測深度的方法與用途”,中國專利號:ZL 200910067645.6(發明專利證書號第720623 號),授權公告日:2010 年12 月29 日。
5. Paul B. Corkum, Emmanuel Dupont, Hui Chun Liu, and Xiaonong Zhu, “Method and apparatus for repair of defects in materials with short laser pulses”, US Patent 6878900B2, Date of Patent: April 12, 2005。(美國專利:“以短雷射脈衝修復材料缺陷的方法和設備”)。

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