摘要
提出一种改进的粉末倍频技术.采用光纤探测器探测粉末样品的倍频光和基频光,大大提高了测量结果的精度.光纤探测器能灵活地绕粉末样品旋转.可以方便地测量样品的倍频光强在周围空间的分布.应用这一测试方法对不同尺度范围的标准KIO3晶体粉末透射倍频光和反射倍频光的位相匹配特性进行了测量,结果表明。反射倍频光为非位相匹配.相干长度约58μm,而透射倍频光具有位相匹配特性.测量发现,KIO3晶体粉末颗粒尺寸在187.5~250μm时。其透射光也能实现较好的位相匹配.
An improved measurement of powder SHG is proposed in this paper. With the help of fiber- optic probe, the accuracy of measurement of powder SHG efficiency is greatly enhanced. The distribution of SHG intensity for the fiber-optic probe rotating around the powder sample can be easily measured. The method is applied to measure the phase-matching properties of transmission SHG and reflection SHG in the different sizes of KIO3 powder. The results show that its reflection SHG belongs to non-phase-match, the coherence length approximates 58μm, and its transmission SHG is phase-matchable. It is found that the KIO3 powder has the phase-matching properties for the transmission SHG when its sizes are in the range of 187.5μm to 250 μm.
出处
《内蒙古师范大学学报(自然科学汉文版)》
CAS
2009年第4期407-410,共4页
Journal of Inner Mongolia Normal University(Natural Science Edition)
基金
内蒙古自然基金资助项目(20080404MS0114)
内蒙古自治区高等学校科学研究基金资助项目(NJzc08135)
关键词
KIO3粉末
倍频技术
位相匹配
光纤探测器
反射
透射
KIO3 powder
SHG technique
phase-matching
fiber-optic probe
reflection
transmission