Category
page 1Missions to asteroids
Double Asteroid Redirection Test
first mission in NASA's Solar System Exploration program; impact of asteroid Dimorphos in 65803 Didymos system
Deep Impact
NASA space probe launched in 2005 to study comet Tempel 1
Lucy
thirteenth mission of the Discovery program; multiple-flyby reconnaissance of five Jupiter trojans
Chang'e 2
Chinese Moon orbiter
Deep Space 1
spacecraft
Hera
ESA spacecraft which will study the effects of the DART Impactor on the asteroid moon Dimorphos
Template:Asteroid spacecraft
Wikimedia template
Asteroid Impact and Deflection Assessment
pair of space missions by NASA and ESA to demonstrate and study the effect of impacting a spacecraft into an asteroid moon
DESTINY+
DESTINY+ (Demonstration and Experiment of Space Technology for INterplanetary voYage with Phaethon fLyby and dUst Science) is a planned mission to fly by the Geminids meteor shower parent body 3200 Phaethon, and sample dust originating from the "rock comet". The spacecraft is being developed by the Japanese space agency JAXA and will demonstrate advanced technologies for future deep space exploration. As of October 2024, DESTINY+ is planned to be launched in fiscal year 2028.
LICIACube
Light Italian CubeSat for Imaging of Asteroids (LICIACube, ) is a six-unit CubeSat of the Italian Space Agency (ASI). LICIACube is a part of the Double Asteroid Redirection Test (DART) mission and carries out observational analysis of the Didymos asteroid binary system after DART's impact on Dimorphos. It communicates directly with Earth, sending back images of the ejecta and plume of DART's impact as well as having done asteroidal study during its flyby of the Didymos system from a distance of , 165 seconds after DART's impact. LICIACube is the first purely Italian autonomous spacecraft in de
OKEANOS
OKEANOS (Oversize Kite-craft for Exploration and Astronautics in the Outer Solar system) was a proposed mission concept to Trojan asteroids, which share Jupiter's orbit, using a hybrid solar sail for propulsion; the sail was planned to be covered with thin solar panels to power an ion engine. In situ analysis of the collected samples would have been performed by either direct contact or using a lander carrying a high-resolution mass spectrometer. A sample-return to Earth was an option under study.
Ramses (spacecraft)
ESA mission to asteroid 99942 Apophis