光学学报, 2020, 40 (5): 0500001, 网络出版: 2020-03-10
环境监测领域中光谱学技术进展 下载: 3767次封面文章
Advances with Respect to the Environmental Spectroscopy Monitoring Technology
图 & 表
图 3. 气体扩张激光诱导荧光技术系统(左上是整体,右上是采样口,右下是激光光源部分)
Fig. 3. FAGE system in a field campaign (upper left is the whole, upper right is the sampling port, lower right is the laser light source part)
图 5. 激光雷达探测颗粒物时空分布。 (a)北京; (b)保定; (c)石家庄;(d)廊坊; (e)邢台;(f)沧州; (g)新乡; (h)济宁
Fig. 5. Space-time distribution of particles detected by lidar. (a) Beijing; (b) Baodi; (c) Shijiazhuang; (d) Langfang; (e) Xingtai; (f) Cangzhou; (g) Xinxiang; (h) Jining
刘文清, 陈臻懿, 刘建国, 谢品华, 张天舒, 赵南京, 司福祺, 胡仁志, 殷高方. 环境监测领域中光谱学技术进展[J]. 光学学报, 2020, 40(5): 0500001. Wenqing Liu, Zhenyi Chen, Jianguo Liu, Pinhua Xie, Tianshu Zhang, Nanjing Zhao, Fuqi Si, Renzhi Hu, Gaofang Yin. Advances with Respect to the Environmental Spectroscopy Monitoring Technology[J]. Acta Optica Sinica, 2020, 40(5): 0500001.