Skip to main content

Hayabusa2 spacecraft begins long journey home laden with asteroid samples

After a 17-month rendezvous with an asteroid hurtling through space some 200 million miles from Earth, Japan’s Hayabusa2 spacecraft is on its way home.

In a tweet, Japan’s space agency (JAXA) described the spacecraft’s departure from the Ryugu asteroid on Wednesday, November 13 as “an emotional moment.”

Recommended Videos

But Hayabusa2 isn’t coming back empty-handed. Assuming its homecoming is as successful as the rest of its mission up to now, the spacecraft will bring with it rock samples collected directly from the 900-meter-wide space rock. It’s hoped the samples will give scientists new insight into the origins and evolution of the solar system and the building blocks of life, and also lead to the further development of deep-space exploration technologies.

Please enable Javascript to view this content

Hayabusa2 reached Ryugu in June 2018 after a journey of three and a half years. In February 2019 the spacecraft made a successful landing on the asteroid, a feat that was greeted with rapturous applause by engineers and scientists at the Tsukuba Space Center near Tokyo. The spacecraft also put several small landers onto the asteroid to collect a range of data from the rock that it could transmit back to Earth.

Shortly before the historic descent onto Ryugu, Hayabusa2 fired what was can be loosely described as a 2-kilogram bullet into the asteroid to throw up rock particles that it later collected, making it the first-ever mission to successfully gather subsurface samples from an asteroid.

Return journey

The spacecraft is expected to come close to Earth about 12 months from now. When it does so, it will fire a 40-cm-wide capsule containing the rock samples toward Earth, allowing Hayabusa2 to remain in space for a possible future mission.

The final part of the current mission will involve locating the all-important capsule, which is expected to come down somewhere in the Australian outback.

The good news is that JAXA has a successful precedent when it comes to the final stages of a mission like this. In 2010, Hayabusa2’s predecessor returned with a capsule containing tiny particles taken from the surface (not the subsurface as with Hayabusa2) of another asteroid. The capsule, which also came down in the Australian outback, transmitted a beacon signal that enabled scientists to locate it the following day.

Trevor Mogg
Contributing Editor
Not so many moons ago, Trevor moved from one tea-loving island nation that drives on the left (Britain) to another (Japan)…
SpaceX wants its Starbase site to officially become a city
SpaceX's Starship rocket on the pad in Boca Chica, Texas.

A Starship rocket awaits launch from SpaceX's Starship facility. SpaceX / SpaceX

SpaceX’s next mission has nothing to do with rockets. Instead, it’s aiming to turn its Starbase facility into a new Texas city.

Read more
Group wants to launch a telescope to study black holes from space
Artist concept of the proposed BHEX network.

Black holes are some of the most extreme objects in the universe, and a new mission proposal suggests launching a space telescope specifically to study them. The Event Horizon Telescope (EHT) group, which took both the first-ever image of a black hole in 2019 and the first-ever image of the supermassive black hole at the center of our galaxy in 2022, has plans for a new mission called the Black Hole Explorer (BHEX).

The idea of BHEX is to use a space-based telescope to collect even more detailed information from black holes, as there is less interference from water vapor when viewing them from above the Earth's atmosphere. The aim would be to combine data from this telescope with the many telescopes on the ground that are already used in the EHT project. The next phase of the project is a collaboration between the Center for Astrophysics | Harvard & Smithsonian (CfA) and the National Radio Astronomy Observatory (NRAO).

Read more
See the majestic Southern Pinwheel Galaxy in this Dark Energy Camera image
Twelve million light-years away lies the galactic masterpiece Messier 83, also known as the Southern Pinwheel Galaxy. Its swirling spiral arms display a high rate of star formation and host six detected supernovae. This image was captured with the Department of Energy-fabricated Dark Energy Camera, mounted on the U.S. National Science Foundation Víctor M. Blanco 4-meter Telescope at Cerro Tololo Inter-American Observatory in Chile, a Program of NSF NOIRLab.

An image from the Dark Energy Camera (DECam) shows a striking celestial sight: the Southern Pinwheel Galaxy, a gorgeous face-on galaxy that is one of the closest and brightest barred spiral galaxies in the sky. Also known as Messier 83, the galaxy is bright enough that it can even be seen with binoculars, but this image from a 4-meter Víctor M. Blanco Telescope shows the kind of stunning detail that can be picked out using a powerful instrument.

"This image shows Messier 83’s well-defined spiral arms, filled with pink clouds of hydrogen gas where new stars are forming," explains NOIRLab from the National Science Foundation, which released the image. "Interspersed amongst these pink regions are bright blue clusters of hot, young stars whose ultraviolet radiation has blown away the surrounding gas. At the galaxy’s core, a yellow central bulge is composed of older stars, and a weak bar connects the spiral arms through the center, funneling gas from the outer regions toward the core. DECam’s high sensitivity captures Messier 83’s extended halo, and myriad more distant galaxies in the background."

Read more