摘要
大气中NO2的含量在10-9量级。研究了一种以发光二极管(LED)为光源的光纤耦合长光程差分吸收光谱(DOAS)系统,用于测量大气NO2。对比了四种不同类型和波段的蓝光LED,确定以中心波长451nm的CREE宝蓝LED为测量光源。在0.8km的测量光程、2min的测量时间分辨率的情况下,在445nm^465nm光谱反演波段内得到NO2的探测限为3.36×10-9。利用系统对大气NO2的浓度进行了一整天的连续观测,通过对吸收光谱的分析计算,反演出的大气NO2浓度在(7~31)×10-9之间变化。测量结果表明,将光纤耦合技术与LED光源的长光程DOAS系统相结合后,可实现大气NO2的高灵敏、高时间分辨率探测。
NO2in the atmosphere are in the 10-9 levels.An system based on the optical fiber coupling long path differential optical absorption spectroscopy(DOAS)for measuring atmospheric NO2 is researched,which uses a blue light-emitting diode(LED)as the light source.A royal blue led(CREE,center wavelength @ 451nm)is used as the light source by comparing four leds with different types and wavebands.When the measurement path is 0.8km and the measurement time is 2minute,NO2 detection limit is 3.36×10-9 retrieved over 445nm^465nm.Continuous observations of the atmospheric NO2 using the system are carried out for a whole day.The concentrations of atmospheric NO2 range from(7~31)×10-9.The measurement results show that it is feasible for the high sensitivity and high time-resolved detection of atmospheric NO2 by long path LED-DOAS system with optical fiber coupling technology.
出处
《光学技术》
CAS
CSCD
北大核心
2016年第1期34-38,共5页
Optical Technique
基金
安徽省自然科学基金(1408085QD75)
国家自然科学基金(41305139)
中国科学院环境光学与技术重点实验室开放基金(2005DP173065-2013-05)
安徽理工大学博士基金资助的课题
关键词
发光二极管
差分吸收光谱
光纤耦合
大气NO2探测
light emitting diode
differential optical absorption spectroscopy
optical fiber coupling
atmospheric NO2 detection
