[1] DI PIAZZA A FIORDILINO E,MITTLEMAN M. Analytical study of the spectrum emitted by a two-level atom driven by a strong laser pulse[J]. Phys. Rev. A,2001,64(1):013414.
[2] PISCANEC S,FERRARI A C,CANTORO M,et al.. Raman spectrum of silicon nanowires[J]. Materials Sci. Eng.:C,2003,23(6-8):931-934.
[3] POTVLIEGE R,VUCICS. High-order above-threshold ionization of argon:plateau resonances and the floquet quasienergy spectrum[J]. Phys. Rev. A,2006,74(2):023412.
[4] ZHAO Y,WANG Y,GONG H,et al.. Annealing effects on structure and laser-induced damage threshold of Ta2O5/SiO2 dielectric mirrors[J]. Appl. Surface Sci.,2003,210(3-4):353-358.
[5] LABUSCHAGNE K,PITYANA S. Laser induced damage threshold on metallic surfaces during laser cleaning / /proceedings of the Third International WLT-Conference on Lasers in Manufacturing,Munich,Germany,Jun 2005.
[6] HE H,HU H,TANG Z,et al.. Laser-induced damage morphology of high-reflective optical coatings[J]. Appl. Surface Sci.,2005,241(3/4):442-448.
[7] GAO W,ZHAN M,FAN S,et al.. Laser-induced damage of TaO/SiO narrow-band interference filters under different 1064 nm Nd∶ YAG laser modes[J]. Appl. Surface Sci.,2005,250(1-4):195-202.
[8] ZHANG D,FAN S,ZHAO Y,et al.. High laser-induced damage threshold HfO films prepared by ion-assisted electron beam evaporation[J]. Appl. Surface Sci.,2005,243(1-4):232-237.
[9] MATTHEWS M J,FEIT M D. Effect of random clustering on surface damage density estimates[J]. SPIE,2007,6720:67201J.
[10] LD M D K. Temperature dependence of laser-induced bulk damage in SiO2 and borosilicate glass[J]. Phys. Rev. B,1988,38(2):1473-1482.
[11] LEE J,GOERICKE F,KING W. Temperature-dependent thermomechanical noise spectra of doped silicon microcantilevers[J]. Sensors and Actuators A:Physical,2008,145-146:37-43.
[12] MAVI H S,PRUSTY S,SHUKLA A K,et al.. Continuous wave laser-induced temperature rise in the thin films of silicon nanocrystals using Raman scattering[J]. Thin Solid Films,2003,45(12):90-96.
[13] 刘丽炜,曲璐,谭勇,等. 脉冲激光作用单晶硅的等离子体光谱分析[J]. 强激光与粒子束 ,2010,22(8):1815-1818. LIU L W,QU L,TAN Y,et al.. Plasma spectra analysis of pulse laser induce Si[J]. High Power Laser and Particle Beams,2010,22(8):1815-1818.(in Chinese)
[14] 靳丽红,杨经国,哈元清,等. 脉冲激光激发Cu等离子体温度的玻耳兹曼方法测量研究[J]. 强激光与粒子束 ,1999,11(6):710-714. JIN L H,YANG J G,HA Y Q,et al.. Measuring the temperature of the laser plasma with boltzmamm distribution method[J]. High Power Laser and Particle Beams,1999,11(6):710-714.(in Chinese)
[15] XIA Z L,XUE Y Y,GUO P T,et al.. The plasma burst process in laser-induced films damage[J]. Opt. Commun.,2009,282(17):3583-3590.
[16] NITIKANT,SHARMA A K. Plasma radiation during laser-induced breakdown of dielectrics[J]. J. Appl. Phys.,2003,93(12):9968.
[17] AHMED J B,FETHI F. Spectroscopic study of laser-induced plasma in aqueous media[J]. Opt. Commun.,2009,282(8):1607-1610.
[18] 刘丽炜,张喜和,张凤东,等. 激光能量对Si等离子体电子温度的影响[J]. 长春理工大学学报(自然科学版) ,2008,31(4):65-67. LIU L W,ZHANG X H,ZHANG F D,et al.. The effection of electron temperature by laser energy[J]. J. Changchun University Sci. Technol.(Natural Science Edition),2008,31(4):65-67.(in Chinese)
[19] 刘丽炜,蔡红星,李昌立,等. ns脉冲激光作用下K9玻璃的等离子体谱图研究[J]. 长春大学学报 ,2008,18(5):20-23. LIU L W,CAI H X,LI C L,et al.. The plasma spectrum research on K9 glass under nanosecond pulse laser[J]. J. Changchun University,2008,18(5):20-23.(in Chinese)
[20] 刘丽炜,张喜和,金光勇,等. 激光作用下硅靶材的等离子体光谱强度分析[J]. 哈尔滨商业大学学报 (自然科学版),2009,25(2):240-245. LIU L W,ZHANG X H,JIN G Y,et al.. The plasma spectrum research on Si under laser induced[J]. J. Haerbing University of Business(Natural Science Edition),2009,25(2):240-245.(in Chinese)
[21] GNATYUK V A,AOKI T,HATANAKA Y. Mechanisms of laser-induced defect formation and in doping in CdTe crystals[J]. IEEE Trans. on Nuclear Sci.,2004,51(5):2466-2471.
[22] GNATYUK V A. Mechanism of laser damage of transparent semiconductors[J]. Physica B:Condensed Matter,2001,308-310:935-938.
[23] ZHU W D,LIU Q B,LI H T. A simulation model for the temperature field in bioceramic coating cladded by wide-band laser[J]. Materials & Design,2007,28(10):2673-2677.
[24] SHEN H,YAO Z,SHI Y,et al.. The simulation of temperature field in the laser forming of steel plates[J]. International J. Modelling,Identification and Control,2007,2(3):241-249.
[25] SHOHEI C,YOICHI M,YUHEI M,et al.. Temperature measurements of single-walled carbon nanotubes by Raman scattering[J]. Thermal Eng.,1999,7(4):10-11.
[26] MCCARTHY B,ZHAO Y,GROVER R,et al.. Enhanced Raman scattering for temperature measurement of a laser-heated atomic force microscope tip[J]. Appl. Phys. Lett.,2005,86(11):111914:1-3.
[27] 周学铁,王俊德,李燕,等. 现代光谱对燃烧与爆炸过程瞬态温度的实时诊断技术[J]. 光谱学与光谱分析 ,2003,23(2):407-410. ZHOU X T,WANG J D,LI Y,et al.. Real time diagnostics of instantaneous temperature of combustion and explosion process by modern spectroscopy[J]. Spectroscopy and Spectral Anal.,2003,23(2):407-410.(in Chinese)
[28] 刘景生.红外物理[M]. 北京:国防工业出版社. 1995. LIU J S. Infrared Physics[M]. Beijing:National Defense Industrial Press,1995.(in Chinese)
[29] 杨序纲.拉曼光谱的分析与应用[M]. 北京:国防工业出版社,2009. YANG X G. Raman Spectroscopy Analysis and Application[M]. Beijing:National Defense Industrial Press,2009.(in Chinese)
[30] SMITH E,DENT G. Modern Raman Spectroscopy:A Practical Approach[M]. Texas:John Wiley & Sons,Ltd.2005.
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