散射光信号与石墨-二氧化硅激光辐照烧蚀阈值的关系
李文智, 韦成华, 高丽红, 马壮, 王富耻, 吴涛涛. 散射光信号与石墨-二氧化硅激光辐照烧蚀阈值的关系[J]. 中国光学, 2016, 9(6): 642.
LI Wen-zhi, WEI Cheng-hua, GAO Li-hong, MA Zhuang, WANG Fu-chi, WU Tao-tao. Relationship between laser ablation threshold of graphite-SiO2 and scattering light signal[J]. Chinese Optics, 2016, 9(6): 642.
[1] 王立军,宁永强,秦莉,等.大功率半导体激光器研究进展[J].发光学报,2015,36(1): 1-19.
[2] 潘其坤.中红外固体激光器研究进展[J].中国光学,2015(4): 557-566.
PAN Q K. Progress of mid-infrared solid-state laser[J]. Chinese Optics,2015(4): 557-566.(in Chinese)
[3] 穆景阳.Cf/E复合材料的重频激光烧蚀机理及加固涂层研究[D].国防科学技术大学,2007.
MU J Y. Studies on the ablative mechanism of Cf/E irradiated by re-frequence laser and anti-laser coatings[D]. National University of Defense Technology,2007.(in Chinese)
[4] 钟华.发动机和抗激光加固用陶瓷材料的应用与发展[J].宇航材料工艺,1991(4): 69-71.
ZHONG H. Application and development of reinforced ceramic materials for engine and anti-laser[J]. Aerospace Materials & Technology,1991(4): 69-71.(in Chinese)
[5] 费逸伟,于贤福,唐卫红,等.SiC精细陶瓷抗激光加固材料的研究[J].兵器材料科学与工程,2001,24(1): 39-43.
FEI Y W,YU X F,TANG W H,et al.. Study of fine SiC ceramic anti-laser reinforced materials[J]. Ordnance Material Science and Engineering,2001,24(1): 39-43.(in Chinese)
[6] YAN Z Y,MA Z,LIU L,et al.. The ablation behavior of ZrB2/Cu composite irradiated by high-intensity continuous laser[J]. J. European Ceramic Society,2014,34(10): 2203-2209.
[7] LI X,ZOU L,WU G,et al.. Laser-induced damage on ordered and amorphous sol-gel silica coatings[J]. Optical Materials Express,2014,4(12): 2478-2483.
[8] SUN W,QI H J,FANG Z,et al.. Ultraviolet laser induced damage characteristic of SiO2 single layers[J]. Applied Mechanics & Materials,2014,513-517(74): 74-77.
[9] LIU W W,WEI Z Y,YI K,et al.. Postprocessing treatments to improve the laser damage resistance of fused silica optical surfaces and SiO2 coatings[J]. Chinese Optics Letters,2015,13(4): 62-66.
[10] HERMANN S,HARDER N P,BRENDEL R,et al.. Picosecond laser ablation of SiO2 layers on silicon substrates[J]. Applied Physics A,2009,99(1): 151-158.
[11] ROMIE E F. Carbon-silica reaction in silica-phenolic composites[J]. AIAA Journal,1967,5(8): 1511-1513.
[12] NAGAMORI M,MALINSKY I,CLAVEAU A. Thermodynamics of the Si-CO system for the production of silicon carbide and metallic silicon[J]. Metallurgical Transactions B,1986,17(3): 503-514.
[13] ASSEKO A C A,COSSON B,DELEGLISE M,et al.. Analytical and numerical modeling of light scattering in composite transmission laser welding process[J]. International Journal of Material Forming,2015,8(1): 127-135.
[14] YUAN S,PEI Z,LAI H,et al.. Au nanoparticle light scattering enhanced responsivity in pentacene phototransistor for deep-UV light detection[J]. IEEE Electron Device Letters,2015,36(11): 1186-1188.
[15] DURING A,COMMANDRE M,FOSSATI C,et al.. Integrated photothermal microscope and laser damage test facility for in-situ investigation of nanodefect induced damage[J]. Optics Express,2003,11(20): 2497-2501.
[16] WOODS B W,RUNKEL M J,YAN M,et al.. Investigation of damage in KDP using scattering techniques[C]. Proceedings of the 28th Annual Symposium on Optical Materials for High Power Lasers,Colorado,USA. 1997,UCRL-JC-125368.
[17] LAMAIGNERE L,BOUILLET S,COURCHINOUX R,et al.. An accurate, repeatable, and well characterized measurement of laser damage density of optical materials[J]. Review of Scientific Instruments,2007,78(10): 103-105.
[18] BLOEMBERGEN N. Role of cracks, pores, and absorbing inclusions on laser induced damage threshold at surfaces of transparent dielectrics[J]. Applied Optics,1973,12: 661-664.
李文智, 韦成华, 高丽红, 马壮, 王富耻, 吴涛涛. 散射光信号与石墨-二氧化硅激光辐照烧蚀阈值的关系[J]. 中国光学, 2016, 9(6): 642. LI Wen-zhi, WEI Cheng-hua, GAO Li-hong, MA Zhuang, WANG Fu-chi, WU Tao-tao. Relationship between laser ablation threshold of graphite-SiO2 and scattering light signal[J]. Chinese Optics, 2016, 9(6): 642.
PDF全文
