Images taken in "Hayabusa2 Project"
2016.7.16
Asteroid Ryugu was observed by VLT successfully
2018.02.26
Hayabusa2 has detected Ryugu!
2018.5.15
Hayabusa2's Star Tracker has successfully imaged Ryugu!
2018.06.06
Ryugu photographed using the ONC-T.
2018.6.8
Ryugu seen from a distance of 2600km
2018.6.11
Ryugu seen from a distance of 1500km
2018.6.14
Ryugu seen from a distance of 920km
2018.6.19
Ryugu seen from 330-240km
2018.6.21
Ryugu seen from a distance of 220-100km
2018.6.25
Asteroid Ryugu seen from a distance of around 40km
2018.7.11
The view of Ryugu from the home position
2018.7.25
Imaging Ryugu from an altitude of 6km
2018.7.31
A stereoscopic image of Ryugu at high resolution
2018.8.7
Ryugu at an altitude of 1 km
2018.9.6
Boulders on the surface of asteroid Ryugu
2018.9.27
Ryugu surface imaged at highest
resolution so far
2018.10.26
Image of Ryugu captured by the ONC-T at an altitude of about 64m at highest resolution so far
2018.9.27
Touchdown candidate sites
2019.2.20
Image from just after touchdown
2019.7.11
2nd touchdown image bulletin ①
2019.7.11
2nd touchdown image bulletin②
2019.7.11
4 seconds before touchdown
2019.7.11
The moment of touchdown
2019.7.11
4 seconds after touchdown
2018.9.22
Image taken immediately after separation from the spacecraft by Rover-1A
2018.9.22
Image captured while moving (during a hop) on the surface of Ryugu by Rover-1A
2018.9.27
Surface image taken from Rover-1A
2018.9.27
MINERVA-II1 successfully captured the shadow of its own antenna and pin.
2018.9.22
Image taken immediately after separation by Rover-1B
2018.9.27
Rover-1B hop①
2018.9.27
Rover-1B hop②
2018.9.27
Rover-1B hop③
2018.9.27
Image captured just before hop of Rover-1B
2018.9.27
Surface image from Rover-1B after landing