Sounding rocket project “PMWE” for investigation of polar mesosphere winter echoes

https://doi.org/10.1016/j.jastp.2021.105596Get rights and content
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Highlights

  • A first sounding rocket campaign dedicated to investigate PMWE was conducted in April 2018 from the Andøya Space Center.

  • Our measurements ultimately show that polar winter mesosphere is abounded with MSP and intermittent turbulent layers.

  • Between ~85 and ~75 km turbulence creates small-scale structures in all the D-region constituents, including free electrons.

  • When the background ionization is strong enough, these structures become visible for VHF radars.

Abstract

A first sounding rocket campaign dedicated to investigate the creation mechanism of Polar Mesosphere Winter Echoes (PMWE) was conducted in April 2018 from the north Norwegian Andøya Space Center (69 °N, 16 °E). Two instrumented sounding rockets were launched on 13th and 18th of April under PMWE and non-PMWE conditions, respectively. In this paper we give an overview of the PMWE sounding rocket mission. We describe and discuss some results of combined in situ and ground-based measurements which allow to verify existing PMWE theories. Our measurements ultimately show that: a) polar winter mesosphere is abounded with meteor smoke particles (MSP) and intermittent turbulent layers, b) all PMWE observed during this campaign can be explained by neutral air turbulence, c) turbulence creates small-scale structures in all D-region constituents, including free electrons; d) MSP ultimately influence the radar volume reflectivity by distorting the turbulence spectrum of electrons, e) the influence of MSP and of background electron density is just to increase SNR.

Keywords

PMWE
Sounding rockets
In situ measurements
Radar echoes

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