Storm-time behaviors of O/N2 and NO variations

Algorithms have been developed to extract net nitric oxide (NO) radiances in the wavelength range of 172-182 nm from the dayside TIMED/GUVI spectrograph data and convert them to NO column density (100-150 km). The thermospheric O/N-2 column density ratios (referenced from an altitude similar to 135 km with a N-2 column density of 10(17) cm(-2)) are also obtained from the spectrograph data. The spatial resolution of the NO and O/N-2 products along the GUVI orbit is 240 km. The coincident O/N-2 ratio and NO column density maps during a few geomagnetic storms reveal two major features: (1) Storm-time O/N-2 depletion and NO enhancement extend from high to mid and low latitudes. They are anti-correlated on a global scale, (2) the NO enhancement covers a wider longitude and latitude region than O/N-2 depletion on a local scale. The similarity between O/N-2 depletion and NO enhancement on global scale is due to storm-time equatorward meridional wind that brings both O/N-2 depleted and NO enhanced air from high to low latitudes. The altitude dependence of the storm-time meridional wind, different peaks altitudes of the local O/N-2 and NO variations, and long life time of NO (one day or longer) may explain the different behaviors of O/N-2 and NO on a local scale. (C) 2014 Elsevier Ltd. All rights reserved.