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FP5

THALOZ Résumé de rapport

Project ID: EVK2-CT-2001-00104
Financé au titre de: FP5-EESD
Pays: United Kingdom

Physico-chemical parameter: absolute absorption cross-section and photolysis rate of I2

Following recent observations of molecular iodine (I2) in the coastal marine boundary layer (MBL) (Saiz-Lopez and Plane, 2004), it has become important to determine the absolute absorption cross-section of I2 at reasonably high resolution, and also to evaluate the rate of photolysis of the molecule in the lower atmosphere. The absolute absorption cross-section of gaseous I2 at room temperature and pressure (295K, 760Torr) was therefore measured between 182 and 750nm using a Fourier Transform spectrometer at a resolution of 4cm-1 (0.1nm at 500nm). The maximum absorption cross-section in the visible region was observed at 533.0nm to be (4.24±0.50)x10-18cm2molecule-1. The spectrum is available as supplementary material accompanying this paper. The photo-dissociation rate constant (J) of gaseous I2 was also measured directly in a solar simulator, yielding J(I2)=0.12±0.03s-1 for the lower troposphere. This is in excellent agreement with the value of 0.12±0.015s-1 calculated using the measured absorption cross-section, terrestrial solar flux for clear sky conditions and assuming a photo-dissociation yield of unity. A two-stream radiation transfer model was then used to determine the variation in photolysis rate with solar zenith angle (SZA), from which an analytic expression is derived for use in atmospheric models. Photolysis appears to be the dominant loss process for I2 during daytime, and hence an important source of iodine atoms in the lower atmosphere.

This work has been published on the Internet and it is freely available to scientists and the general public alike. The molecular iodine spectrum has also been published in a format suitable for use by others (as supplementary material accompanying the paper).

Citation: A. Saiz-Lopez, R. W. Saunders, D. M. Joseph, S. H. Ashworth, J. M. C. Plane, Absolute absorption cross-section and photolysis rate of I2, Atmospheric Chemistry and Physics, Vol. 4, pp 1443-1450, 1-9-2004

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John PLANE, (Professor and Head of research group)
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