Abstract. In this paper we present an overview of measurements conducted during the WADIS-2 rocket campaign. We investigate the effect of small-scale processes like gravity waves and turbulence on the distribution of atomic oxygen and other species in the mesosphere–lower thermosphere (MLT) region. Our analysis suggests that density fluctuations of atomic oxygen are coupled to fluctuations of other constituents, i.e., plasma and neutrals. Our measurements show that all measured quantities, including winds, densities, and temperatures, reveal signatures of both waves and turbulence. We show observations of gravity wave saturation and breakdown together with simultaneous measurements of generated turbulence. Atomic oxygen inside turbulence layers shows two different spectral behaviors, which might imply a change in its diffusion properties.
<p><strong>Abstract.</strong> In this paper we present an overview of measurements conducted during the WADIS-2 rocket campaign. We investigate the effect of small-scale processes like gravity waves and turbulence on the distribution of atomic oxygen and other species in the MLT region. Our analysis suggests that density fluctuations of atomic oxygen are coupled to fluctuations of other constituents, i.e., plasma and neutrals. Our measurements show that all measured quantities, including winds, densities, and temperatures, reveal signatures of both waves and turbulence. We show observations of gravity wave saturation and breakdown together with simultaneous measurements of generated turbulence. Atomic oxygen inside turbulence layers shows two different spectral behaviors, which might imply change of its diffusion properties.</p>
Abstract. This paper presents simultaneous temperature measurements by three
independent instruments during the WADIS-2 rocket campaign in northern Norway
(69∘ N, 14∘ E) on 5 March 2015. Vertical profiles
were measured in situ with the CONE instrument. Continuous mobile IAP Fe lidar (Fe
lidar) measurements during a period of 24 h, as well as horizontally resolved temperature maps by the Utah State University (USU) Advanced
Mesospheric Temperature Mapper (AMTM) in the mesopause region, are analysed.
Vertical and horizontal temperature profiles by all three instruments are in
good agreement. A harmonic analysis of the Fe lidar measurements shows the
presence of waves with periods of 24, 12, 8, and 6 h.
Strong waves with amplitudes of up to 10 K at 8 and
6 h are found. The 24 and 12 h components play only a
minor role during these observations. In contrast only a few short periodic
gravity waves are found. Horizontally resolved temperatures measured with the
AMTM in the hydroxyl (OH) layer are used to connect the vertical temperature profiles.
In the field of view of 200 km×160 km only small deviations from
the horizontal mean of the order of 5 K are found. Therefore only weak
gravity wave signatures occurred. This suggests horizontal structures of more
than 200 km. A comparison of Fe lidar, rocket-borne measurements, and
AMTM temperatures indicates an OH centroid altitude of about 85 km.
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