广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2015年
4期
90-92
,共3页
罗康%蒲云体%乔曌%刘志超%罗晋%朱基亮%马平
囉康%蒲雲體%喬曌%劉誌超%囉晉%硃基亮%馬平
라강%포운체%교조%류지초%라진%주기량%마평
增透膜%激光诱导损伤%损伤形貌%HfO2/SiO2
增透膜%激光誘導損傷%損傷形貌%HfO2/SiO2
증투막%격광유도손상%손상형모%HfO2/SiO2
antireflection films%laser-induced damage%damage morphology%HfO2/SiO2
用电子束蒸发法制备了HfO2/SiO2增透膜样品,并进行退火。测量未退火样品与退火样品的透射光谱,发现退火样品的光谱明显向短波方向移动,原因是退火后薄膜中的吸附水被去除。使用Nd:YAG激光器在“S-on-1”模式下对样品进行了激光诱导损伤处理。两种样品的损伤形貌均主要是损伤坑。考虑到损伤的成因是基底的亚表面微裂纹中的吸收颗粒吸收激光能量后导致裂纹扩大,最终形成损伤坑。基于这种损伤机制,退火对损伤没有明显影响。通过显微镜在损伤形貌中观察到了冲击波传输形成的波动条纹。
用電子束蒸髮法製備瞭HfO2/SiO2增透膜樣品,併進行退火。測量未退火樣品與退火樣品的透射光譜,髮現退火樣品的光譜明顯嚮短波方嚮移動,原因是退火後薄膜中的吸附水被去除。使用Nd:YAG激光器在“S-on-1”模式下對樣品進行瞭激光誘導損傷處理。兩種樣品的損傷形貌均主要是損傷坑。攷慮到損傷的成因是基底的亞錶麵微裂紋中的吸收顆粒吸收激光能量後導緻裂紋擴大,最終形成損傷坑。基于這種損傷機製,退火對損傷沒有明顯影響。通過顯微鏡在損傷形貌中觀察到瞭遲擊波傳輸形成的波動條紋。
용전자속증발법제비료HfO2/SiO2증투막양품,병진행퇴화。측량미퇴화양품여퇴화양품적투사광보,발현퇴화양품적광보명현향단파방향이동,원인시퇴화후박막중적흡부수피거제。사용Nd:YAG격광기재“S-on-1”모식하대양품진행료격광유도손상처리。량충양품적손상형모균주요시손상갱。고필도손상적성인시기저적아표면미렬문중적흡수과립흡수격광능량후도치렬문확대,최종형성손상갱。기우저충손상궤제,퇴화대손상몰유명현영향。통과현미경재손상형모중관찰도료충격파전수형성적파동조문。
HfO2/SiO2 antireflection films were prepared by electron beam evaporation method, and one of them was annealed. The transmittance spectra were measured. Because the absorbed water in the films was dislodged after annealing, to be compared with as-deposited sample, the spectrum of annealed sample shifted to short wavelength evidently. The laser induced damage test was carried out by the Nd:YAG laser in “S-on-1” mode. The laser-induced damage morphologies of the samples were mainly craters. The formation mechanism of the damage morphologies was discussed, and found that the damages were initiated by the absorption particles in the subsurface damage layer of substrate. The absorption particles located in the cracks and absorbed laser energy, then the cracks were opened and the craters were formed. Because of the mechanism of the laser-induced damage, annealing had no evident effect on the damage morphologies. Ripples could be observed by microscope.