
Valentine A. Yankovsky
St. Petersburg State University
Russia
Title: New methods for remote sensing of altitude profiles of the O(3P), O3 and CO2 in the daytime mesosphere and lower thermosphere
Biography
Biography: Valentine A. Yankovsky
Abstract
For daytime, the altitude profiles of concentrations of electronical-vibrationally excited molecules, O2(b1Σâºg, v=0, 1 and 2), depend on distributions of the O(3P), O3 and, partially, CO2 in the MLT region. It allows the use of emission bands originating from the O2(b1Σâºg, v= 0, l and 2) levels as a proxy for non-emitting, but it is very important for the atmospheric photochemistry, small components of the atmosphere. Contemporary model of O3 and O2 photolysis in the MLT, YM2011, has been investigated by methods of the sensitivity study and uncertainty analysis. It have been shown that simultaneously measuring of altitude profiles of two proxies concentrations, O2(b1Σâºg, v = 0) and O2(b1Σâºg, v = 1), allows to retrieve, simultaneously, profiles: [O3] and [CO2] in the range 50 – 90 km; [O(3P)], [O3] and, perhaps, [CO2] in the range 90 – 100 km (here, it is necessary to use a third proxy, O2(b1Σâºg, v = 2), in addition to the two above-mentioned); [O(3P)] and [O2] in the range 100 – 140 km. We believe that new remote sensing methods described above can be more fully realized as limb emission measurements from the satellite. Detailed description of the YM2011 model, database of the rate constants for aeronomical reactions, and applied analytical methods is given in the work: V.A Yankovsky et al., J. Mol. Spectrosc. (2016)
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