Measurement requirements for a Near-Earth Asteroid impact mitigation demonstration mission |
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| Authors: | Stephen D. Wolters Andrew J. Ball Nigel Wells Christopher Saunders Neil McBride |
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| Affiliation: | aPlanetary and Space Sciences Research Institute, Centre for Earth, Planetary, Space and Astronomical Research, The Open University, Walton Hall, Milton Keynes MK7 6AA, UK;bNieuwe Rijn 28D, 2312 JD Leiden ZH, The Netherlands;cQinetiQ, Cody Technology Park, Farnborough, Hampshire GU14 0LX, UK |
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| Abstract: | A concept for an Impact Mitigation Preparation Mission, called Don Quijote, is to send two spacecrafts to a Near-Earth Asteroid (NEA): an Orbiter and an Impactor. The Impactor collides with the asteroid while the Orbiter measures the resulting change in the asteroid's orbit, by means of a Radio Science Experiment (RSE) carried out before and after the impact. Three parallel Phase A studies on Don Quijote were carried out for the European Space Agency: the research presented here reflects the outcomes of the study by QinetiQ. We discuss the mission objectives with regard to the prioritisation of payload instruments, with emphasis on the interpretation of the impact. The Radio Science Experiment is described and it is examined how solar radiation pressure may increase the uncertainty in measuring the orbit of the target asteroid. It is determined that to measure the change in orbit accurately a thermal IR spectrometer is mandatory, to measure the Yarkovsky effect. The advantages of having a laser altimeter are discussed. The advantages of a dedicated wide-angle impact camera are discussed and the field-of-view is initially sized through a simple model of the impact. |
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| Keywords: | Near-Earth Asteroids Impact Mitigation Spacecraft Missions |
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