Hayabusa2’s asteroid samples return to Earth in a fiery dash of glory

In a streak of light across the night sky, samples collected from a distant asteroid arrived on Earth on Sunday after being dropped off by Japanese space probe Hayabusa2.

Scientists hope the precious samples, which are expected to amount to no more than 0.1 grams of material, could help shed light on the origin of life and the formation of the universe.

The capsule carrying samples entered the atmosphere just before 2:30 am Japan time (1730 GMT), creating a shooting-star-like fireball as it entered Earth’s atmosphere.

“Six years and it has finally come back to Earth,” an official narrating a live broadcast of the arrival said, as images showed officials from Japan’s space agency JAXA cheering and pumping their fists in excitement.

The capsule separated from Hayabusa2 on Saturday, when the refrigerator-sized space probe that launched into space in 2014 was 220,000 kilometres (136,702 miles) away from Earth.

It landed in the southern Australian desert, where it will be recovered from an area spanning some 100 square kilometres (39 square miles), with search crews guided by beacons emitted as the capsule descended.

The samples were collected from the asteroid Ryugu, some 300 million kilometres from Earth (185 million miles) during two crucial phases of Hayabusa2’s mission last year.

The probe collected both surface dust and pristine material from below the surface that was stirred up by firing an “impactor” into the asteroid.

The material collected from the asteroid is believed to be unchanged since the time the universe was formed.

Larger celestial bodies like Earth went through radical changes, including heating and solidifying, changing the composition of the materials on their surface and below.

But “when it comes to smaller planets or smaller asteroids, these substances were not melted, and therefore it is believed that substances from 4.6 billion years ago are still there,” Hayabusa2 mission manager Makoto Yoshikawa told reporters before the capsule arrived.

Extended mission for probe

Scientists are especially keen to discover whether the samples contain organic matter, which could have helped seed life on Earth.

“We still don’t know the origin of life on Earth and through this Hayabusa2 mission, if we are able to study and understand these organic materials from Ryugu, it could be that these organic materials were the source of life on Earth,” Yoshikawa said.

Once the samples are recovered, they will be processed in Australia and then flown back to Japan.

Half the material will be shared between JAXA, US space agency NASA and other international organisations, and the rest kept for future study as advances are made in analytic technology.

More tasks for Hayabusa2

The work, however, isn’t over for Hayabusa2, which was launched in December 2014.

The probe will now begin an extended mission targeting two new asteroids.

Hayabusa2 will complete a series of orbits around the sun for around six years before approaching the first of its target asteroids – named 2001 CC21 – in July 2026.

The probe won’t get that close, but scientists hope it will be able to photograph it and that the fly-by will help develop knowledge about how to protect Earth against asteroid impact.

Hayabusa2 will then head towards its main target, 1998 KY26, a ball-shaped asteroid with a diameter of just 30 metres. When the probe arrives at the asteroid in July 2031, it will be approximately 300 million kilometres from Earth.

It will observe and photograph the asteroid, no easy task given that it is spinning rapidly, rotating on its axis about every 10 minutes.

But Hayabusa2 is unlikely to land and collect samples, as it probably won’t have enough fuel to return them to Earth.

© Agence France-Presse

Products You May Like

Articles You May Like

Scientists Just Broke The World Record For The Most Powerful Stable Magnetic Field
Hidden ‘Hunger Stones’ Reveal Drought Warnings From The Past
A Snake-Lover Built Robotic Legs For a Snake, and It’s Insane
For The First Time, Scientists Have Named a Heat Wave. Here’s Why It’s a Big Deal
The Star Betelgeuse Went a Little Dim in 2019. Astronomers Think They Know Why

Leave a Reply

Your email address will not be published.