Seasonal oscillations in mesospheric temperatures at low-latitudes
Zhao, Y., Taylor, M. J., Liu, H., & Roble, R. G. (2007). Seasonal oscillations in mesospheric temperatures at low-latitudes. Journal Of Atmospheric And Solar-Terrestrial Physics, 69, 2367-2378. doi:10.1016/j.jastp.2007.07.010
Using 3 years of high-quality temperature measurements (2002-2004) recorded from Maui, HI (20.8°N), we have investigated the characteristics of mesospheric seasonal oscillations at low-latitudes. Measurements of the near-infrared OH (6,2) and O₂ (0,1) nightglow emission layers (centered at ~87 an... Show moreUsing 3 years of high-quality temperature measurements (2002-2004) recorded from Maui, HI (20.8°N), we have investigated the characteristics of mesospheric seasonal oscillations at low-latitudes. Measurements of the near-infrared OH (6,2) and O₂ (0,1) nightglow emission layers (centered at ~87 and ~94 km) independently reveal a distinct semi-annual oscillation (SAO) and annual oscillation (AO) with amplitudes of ~3.8 and ~2.0 K, respectively. An observed asymmetry in the seasonal variation of the nocturnal mean, previously reported by Taylor et al. [2005. Characterization of the semi-annual-oscillation in mesospheric temperatures at low-latitudes. Advances in Space Research 35, doi:10.1016/j.asr.2005.05.111] from this site is shown to be due to a superposed AO of amplitude ~50% of the SAO signature. Detailed investigations of the local-time variation of the SAO amplitude and phase combined with TIME-GCM simulations of the seasonal variation of the diurnal tide strongly suggest a large local-time dependence of the amplitude (but not phase) of the observed SAO. These data indicate that the true mean temperature SAO amplitude could be as high as ~7 K at this latitude. Show less