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Daedalus: A Low-Flying Spacecraft for the Exploration of the Lower Thermosphere - Ionosphere

Authors :
Theodoros E. Sarris
Elsayed R. Talaat
Minna Palmroth
Iannis Dandouras
Errico Armandillo
Guram Kervalishvili
Stephan Buchert
David Malaspina
Allison Jaynes
Nikolaos Paschalidis
John Sample
Jasper Halekas
Stylianos Tourgaidis
Vaios Lappas
Mark Clilverd
Qian Wu
Ingmar Sandberg
Anita Aikio
Panagiotis Pirnaris
Publication Year :
2019
Publisher :
Copernicus GmbH, 2019.

Abstract

The Daedalus mission has been proposed to the European Space Agency (ESA) in response to the call for ideas for the Earth Observation programme's 10th Earth Explorer. It was selected in 2018 as one of three candidates for a Phase-0 feasibility study. The goal of the mission is to quantify the key electrodynamic processes that determine the structure and composition of the upper atmosphere, the gateway between the Earth’s atmosphere and space. An innovative preliminary mission design allows Daedalus to access electrodynamics processes down to altitudes of 150 km and below. Daedalus will perform in-situ measurements of plasma density and temperature, ion drift, neutral density and wind, ion and neutral composition, electric and magnetic fields and precipitating particles. These measurements will unambiguously quantify the amount of energy deposited in the upper atmosphere during active and quiet geomagnetic times via Joule heating and energetic particle precipitation, estimates of which currently vary by orders of magnitude between models. An innovation of the Daedalus preliminary mission concept is that it includes the release of sub-satellites at low altitudes: combined with the main spacecraft, these sub-satellites will provide multi-point measurements throughout the Lower Thermosphere-Ionosphere region, down to altitudes below 120 km, in the heart of the most under-explored region in the Earth's atmosphere. This paper describes Daedalus as originally proposed to ESA.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........c518a248703641c8e5eb7789a7579ddb
Full Text :
https://doi.org/10.5194/gi-2019-3