Combined optical and microwave remote sensing measurements of the stratosphere from a balloon platform: improving our understanding of ozone photochemistry

Conference Proceedings Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing Pub Date : 1995-04-03 DOI:10.1109/COMEAS.1995.472379

D.G. Johnson, W. Traub, K. Chance, K. Jucks, R. Stachnik

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Abstract

Combined infrared and microwave remote sensing measurements of the stratosphere are combined to test several aspects of a constrained photochemical model. The authors find that a model with conventional chemistry only is unable to reproduce the observed abundance of ClO and HOCl relative to HCl, while results from a model which includes 10% production of HCl from the reaction of OH and ClO are in good agreement with the observations. The modified model predicts that the rates of production and loss of ozone are in balance at altitudes where the photochemical lifetimes are short compared to the characteristic transport time (30-40 km), in agreement with the rates calculated directly from the authors' measurements of HO/sub 2/, OH, NO/sub 2/, O/sub 3/, and ClO. The modified model also shows that for the balloon flight analyzed halogen-catalyzed ozone loss plays a lesser role than previously believed.<>

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从气球平台对平流层进行光学和微波遥感测量:提高我们对臭氧光化学的认识

结合了平流层的红外和微波遥感测量，以测试受限光化学模型的几个方面。作者发现，仅用常规化学方法的模型不能再现观测到的ClO和HOCl相对于HCl的丰度，而用OH和ClO反应生成10% HCl的模型的结果与观测结果很吻合。修正后的模式预测，与特征输运时间(30-40 km)相比，在光化学寿命较短的海拔高度，臭氧的产生和损失率是平衡的，这与作者通过测量HO/sub - 2/、OH、NO/sub - 2/、O/sub - 3/和ClO直接计算的速率一致。修正后的模型还表明，对于所分析的气球飞行，卤素催化的臭氧损失所起的作用比以前认为的要小。

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Conference Proceedings Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing

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