O2 1.27 μm emission maps as derived from OMEGA/MEx data

We present a method to derive the 2D maps of the O-2 (a(1)Delta(g)) airglow emission at 1.27 mu m from the OMEGA/MEx nadir observations. The OMEGA imaging capabilities allow monitoring the 2D distribution, daily and seasonal variation of the O-2 emission intensities with a detection limit of 4 MR. The highest vallies, of the order of similar to 31 MR, are found on the south pole for 11 h < LT < 13 h, during the early spring (186 degrees < Ls < 192 degrees) of martian year (MY) 27, according to the Mars Year numbering scheme of Clancy et al. [Clancy, R.T., Wolff, MJ., Christensen, P.R., 2003. Mars aerosol studies with the MGS TES emission phase function observations: Optical depths, particle sizes, and ice cloud types versus latitude and solar longitude. J. Geophys. Res. 108. doi: 10.1029/2003JE002058]. In the polar regions the day-by-day variability, associated with polar vortex turbulences, is obtained of the order of 30-50% as predicted by the model [Lefevre, F., Lebonnois, S., Montmessin, F., Forget, F., 2004. Three-dimensional modeling of ozone on Mars. J. Geophys. Res. 109, E07004. doi: 10.1029/2004JE002268] and found by SPICAM [Perrier, S., Bertaux, J.-L., Lebonnois, S., Korablev, O., Fedorova, A., 2006. Global distribution of total ozone on Mars from SPICAM/MEX UV measurements. J. Geophys. Res. 111, E09S06. doi: 10.1029/2006JE002681]. In the considered set of data a maximum of the O-2 emission is observed between 11 h and 15 h LT in the latitude range 70-85 degrees during early spring on both hemispheres, while for the southern autumn-winter season a maximum is found between 50 degrees and 60 degrees in the southern hemisphere for MY28. Increase of intensity of the O-2 emission observed from Ls 130 degrees to 160 degrees at southern high latitudes may be explained by increase of solar illumination conditions in the maps acquired during the considered period. Atmospheric waves crossing the terminator on the southern polar regions are observed for the first time during the MY28 early spring. The spatial scale of the waves ranges from 100 to 130 km, and the intensity fluctuations are of the order of 4MR. This study confirms the high potentiality of O-2 (a(1)Delta(g)) day glow as a passive tracer of the martian atmosphere dynamics at high latitudes. (C) 2009 Elsevier Inc. All rights reserved.