Klenk K F
Appl Opt. 1980 Jan 15;19(2):236-42. doi: 10.1364/AO.19.000236.
Band-averaged absorption coefficients for the wavelength channels of the backscatter ultraviolet (BUV) experiment are computed using the laboratory ozone absorption measurements of several experimenters. For the major ozone-determining channels on the BUV (3125 and 3175 A) the various coefficients ranged from +/-11 to +/-4%, respectively, about the range midpoint. These percentage uncertainties in the band absorption coefficients lead to similar percentage uncertainties in the absolute value of derived total ozone because of the reciprocal relationship between the two. Derived total-ozone ratios of the BUV A:B pairs, the Dobson AD:CD double pairs, and the BUV B:Dobson AD are estimated for the different sets of coefficients based on the ratios experimentally observed in the BUV and Dobson data. The Inn and Tanaka measurements lead to the most consistent results. Band-averaged coefficients for the BUV-profiling wavelengths are also computed.
利用几位实验者的实验室臭氧吸收测量数据,计算了后向散射紫外线(BUV)实验波长通道的波段平均吸收系数。对于BUV上主要的臭氧测定通道(3125埃和3175埃),各种系数分别在范围中点附近从±11%到±4%不等。由于两者之间的倒数关系,波段吸收系数的这些百分比不确定性导致推导的总臭氧绝对值出现类似的百分比不确定性。基于在BUV和多布森数据中实验观测到的比率,针对不同的系数集估算了BUV A:B对、多布森AD:CD双对以及BUV B:多布森AD的推导总臭氧比率。因和田中测量得出的结果最为一致。还计算了BUV剖面波长的波段平均系数。