Science case for the Asteroid Impact Mission (AIM): A component of the Asteroid Impact &amp; Deflection Assessment (AIDA) mission

Michel, Patrick; Cheng, A. F.; Küppers, M.; Pravec, Petr; Blum, Jürgen; Delbò, M.; Green, Simon; Rosenblatt, P.; Tsiganis, K.; Vincent, Jean‐Baptiste; Biele, Jens; Ciarletti, Valérie; Hérique, Alain; Ulamec, Stephan; Carnelli, Ian; Gálvez, A.; Benner, L. A. M.; Naidu, Shantanu P.; Barnouin, Olivier S.; Richardson, D. C.; Rivkin, Andrew S.; Scheirich, P.; Moskovitz, Nicholas; Thirouin, A.; Schwartz, S. R.; Bagatín, Adriano Campo; Yu, Yang

doi:10.1016/j.asr.2016.03.031

Cited by 104 publications

(91 citation statements)

References 64 publications

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“…The Jet Propulsion Laboratory (JPL)'s Solar System Dynamics site 1 lists it as a near-Earth object (NEO, indicating that its perihelion distance lies within 1.3 AU of the Sun) and a Potentially Hazardous Asteroid (PHA, indicating that it poses at least a hypothetical danger of impact, having an Earth MOID less than 0.05 AU and an absolute magnitude H less than 22.0 (Atkinson et al 2000;Stokes et al 2003)) 2 . The Didymos primary itself has H = 18.2 and a diameter of 780 meters (Michel et al 2016).…”

Section: Didymos' Current Orbitmentioning

confidence: 99%

“…The Didymos asteroid pair consists of a primary with a diameter of 780 m, and a 163 m diameter secondary; their individual centers of mass are separated by 1.18 km and their orbital period is 11.92 hours (Michel et al 2016). Material released from Didymos' secondary (informally known as 'Didymoon' e.g.…”

Section: Didymos' Current Orbitmentioning

confidence: 99%

“…Material released from Didymos' secondary (informally known as 'Didymoon' e.g. Michel et al (2016)) by the DART impactor can be expected to show a range of behaviors. Ejecta with speeds less than the escape speed from Didymos (about 1 m/s, Michel et al (2016)) can be expected to remain in orbit around the asteroid and/or re-impact one of the members of the binary.…”

Section: Didymos' Current Orbitmentioning

confidence: 99%

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On the Delivery of DART-ejected Material from Asteroid (65803) Didymos to Earth

Wiegert

2020

Planet. Sci. J.

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The DART spacecraft is planned to impact the secondary of the binary asteroid (65803) Didymos in 2022, to assess deflection strategies for planetary defense. The impact will create a crater and release asteroidal material, some of which will escape the Didymos system. Because the closest point of approach of Didymos to Earth's orbit is only 6 million km (about 16 times the Earth-Moon distance), some ejected material will make its way sooner or later to our planet, and the observation of these particles as meteors would increase the scientific payout of the DART mission. The DART project may also represent the first human-generated meteoroids to reach Earth, and a test case for human activity on asteroids and its eventual contribution to the meteoroid environment and spacecraft impact risk. This study examines the amount and timing of the delivery of meteoroids from Didymos to near-Earth space.This study finds that very little DART-ejected material will reach our planet, and most of that only after thousands of years. But some material ejected at the highest velocities could be delivered to Earth-crossing trajectories almost immediately, though at very low fluxes. Timing and radiant directions for material reaching Earth are calculated, though the detection of substantial numbers would indicate more abundant and/or faster ejecta than is expected.The DART impact will create a new meteoroid stream, though probably not a very dense one. However, larger, more capable asteroid impactors could create meteoroid streams in which the particle flux exceeds that naturally occurring in the Solar System, with implications for spacecraft safety.

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Section: Didymos' Current Orbitmentioning

confidence: 99%

Section: Didymos' Current Orbitmentioning

confidence: 99%

Section: Didymos' Current Orbitmentioning

confidence: 99%

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On the Delivery of DART-ejected Material from Asteroid (65803) Didymos to Earth

Wiegert

2020

Planet. Sci. J.

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“…More than 700 near Earth asteroids have been observed by Arecibo and Goldstone radars at 2.4, 7.2 and 8.6 GHz (https://echo.jpl.nasa.gov/asteroids/PDS.asteroid.radar.history.html; Naidu et al, 2016;Slade et al, 2011). The most prominent results consist of orbit, spin vector and shape (Magri et al, 2007) and allow inference of internal structures, e.g from diamond shapes or binary systems (Ostro et al, 2006;Fang and Margot, 2012).…”

Section: -Dielectric Model Of Asteroidsmentioning

confidence: 99%

“…In the context of the 5 th Medium Class (M5) ESA Cosmic Vision call, the Castalia mission to a Main-belt Comet (Snodgrass et al, 2017), the Heavy Metal mission to Psyche (Wahlund et al, 2016) and the MarcoPolo-M5 sample return mission to a D-type asteroid (Franchi et al, 2017), each include an instrument aimed at internal structure measurements. Such an instrument was also considered for the AIDA technology demonstration mission, composed of a kinetic impactor DART (NASA, Cheng et al, 2016) and of an observing spacecraft AIM (ESA, Michel et al, 2016) to test a deflection scenario and to study the binary near-Earth asteroid system, 65803 Didymos. Unfortunately, the European AIM component was not funded by ESA Member States during the Ministerial council in 2016.…”

Section: -Introductionmentioning

confidence: 99%