By Kyoko HASEGAWA
Tokyo (AFP) July 11, 2019
Japan's Hayabusa2 probe made a "perfect" touchdown Thursday on a distant asteroid, collecting samples from beneath the surface in an unprecedented mission that could shed light on the origins of the solar system.
"We've collected a part of the solar system's history," project manager Yuichi Tsuda said at a jubilant press conference hours after the successful landing was confirmed.
"We have never gathered sub-surface material from a celestial body further away than the Moon," he added.
"We did it and we succeeded in a world first."
The fridge-sized probe made its second landing on the asteroid around 10:30am (0130GMT), with officials from the Japan Aerospace Exploration Agency (JAXA) breaking into applause and cheers as initial data suggested the touchdown had been a success.
Confirmation of the landing came only after Hayabusa2 lifted back up from the asteroid and resumed communications with the control room.
Research director Takashi Kubota told reporters that the touchdown operation was "more than perfect."
And Tsuda, with a grin, said he rated it "1000 points out of 100."
"The probe moved perfectly and the team's preparation work was perfect," he said.
- Pristine samples -
The brief landing Thursday is the second time Hayabusa2 has touched down on the desolate asteroid Ryugu, some 300 million kilometres (185 million miles) from Earth.
Ryugu, which means "Dragon Palace" in Japanese, refers to a castle at the bottom of the ocean in an ancient Japanese tale.
The complex multi-year Hayabusa2 mission has also involved sending rovers and robots down to the surface.
Thursday's touchdown was intended to collect pristine materials from beneath the surface of the asteroid that could provide insights into what the solar system was like at its birth, some 4.6 billion years ago.
To get at those crucial materials, in April an "impactor" was fired from Hayabusa2 towards Ryugu in a risky process that created a crater on the asteroid's surface and stirred up material that had not previously been exposed to the atmosphere.
Hayabusa2's first touchdown was in February, when it landed briefly on Ryugu and fired a bullet into the surface to puff up dust for collection, before blasting back to its holding position.
The second touchdown required special preparations because any problems could mean the probe would lose the precious materials already gathered during its first landing.
- 'The world is watching' -
A photo of the crater taken by Hayabusa2's camera after the April blast showed that parts of the asteroid's surface are covered with materials that are "obviously different" from the rest of the surface, mission manager Makoto Yoshikawa told reporters before the latest touchdown.
Scientists are hoping the probe will have collected unidentified materials believed to be "ejecta" from the blast after landing briefly in an area some 20 metres away from the centre of the crater.
"It would be safe to say that extremely attractive materials are near the crater," Tsuda said before the landing.
The touchdown is the last major part of Hayabusa2's mission, and when the probe returns to Earth next year to drop off its samples, scientists hope to learn more about the history of the solar system and even the origin of life on Earth.
The Hayabusa2 mission has attracted international attention, with Queen guitarist and astrophysicist Brian May sending a video to the probes team ahead of the landing.
"The world is watching. We love you, take care Hayabusa2," the musician told the team.
Hayabusa2 is the successor to JAXA's first asteroid explorer, Hayabusa -- Japanese for falcon, which returned with dust samples from a smaller, potato-shaped asteroid in 2010.
It was hailed as a scientific triumph despite various setbacks during its epic seven-year odyssey.
The Hayabusa2 mission was launched in December 2014, and has a price tag of around 30 billion yen ($270 million).
Hayabusa2: the asteroid probe seeking solar system secrets Tokyo, Japan (AFP) Jul 11 - Japan's Hayabusa2 space probe made its second touchdown on a distant asteroid on Thursday, in a bid to collect mineral samples that could reveal more about the solar system's evolution.
Here are five things to know about the ambitious expedition.
What is Hayabusa2's main goal?
The Japanese probe, about the size of a large fridge, arrived at its observation position above the asteroid Ryugu in June 2018.
Even its arrival was hailed as a success, likened to "shooting from Japan at a six-centimetre (two-inch) target in Brazil".
But its main mission was to observe and sample the surface of Ryugu, an asteroid some 300 million kilometres (187 million miles) from Earth that is believed to be relatively unchanged since the solar system was formed some 4.6 billion years ago.
Scientists hope samples from Ryugu will shed light on the birth of the solar system and its evolution, including whether elements from space helped give rise to life on Earth.
Project manager Yuichi Tsuda has described the mission as "a space science exploration that is unprecedented for humankind".
What are the key parts of its mission?
Hayabusa2 is equipped with various types of technology to help it observe and sample Ryugu, including a camera, that has beamed back images of the desolate asteroid's surface, and sensing equipment to record an array of data.
Last year, it dispatched two tiny MINERVA-II rover robots as well as the French-German robot MASCOT onto the surface, for additional observations using equipment able to take pictures, measure temperatures and examine mineral samples.
"And then I found myself in a place like no place on Earth. A land full of wonder, mystery and danger!" the Twitter account for the MASCOT robot tweeted after it landed on Ryugu in October 2018.
In February, Hayabusa2 made its first brief touchdown on Ryugu, firing a projectile into the asteroid's surface to puff up dust for collection.
Then in April, the probe fired an explosive device called an "impactor" to create a crater on Ryugu's surface and bring up materials that have not been exposed to millennia of weathering.
On Thursday, Hayabusa2 landed on Ryugu again to collect those sub-surface samples.
How long will it take?
The Hayabusa2 mission was launched in December 2014, blasting into space on a Japanese rocket launched from the Tanegashima Space Centre.
It took it three-and-a-half years to get to Ryugu, but the return journey should be significantly shorter because Earth and the asteroid will be closer when Hayabusa2 sets off for home, thanks to their orbit paths.
The probe is expected to drop a re-entry capsule containing its samples back to Earth in late 2020.
The six-year mission has a price tag of around 30 billion yen ($278 million).
What inspired the mission?
Hayabusa2 is the successor to the Japanese space agency's first asteroid explorer "Hayabusa", which means falcon in Japanese.
The earlier probe returned with dust samples from a smaller, potato-shaped asteroid in 2010, despite various setbacks during its epic seven-year odyssey, and was hailed as a scientific triumph.
Among the Hayabusa2 mission's innovations are its ability to create a crater on the surface of the asteroid, and its transport of the MASCOT robot.
What is next for Hayabusa2?
With the latest landing, Hayabusa2 has completed the key tasks of its complex mission. It will continue to take images and readings while it remains around Ryugu but it is expected to head back to Earth next year.
There have been suggestions, however, that the probe could see its mission extended.
In a 2017 paper, project director Tsuda and another JAXA colleague wrote that Hayabusa2 might be able to carry out another asteroid fly-by after dropping off its re-entry capsule to Earth.
That could give scientists new information, potentially extending the probe's mission by hundreds of days, the pair wrote.
Astronomers spot kilometer-wide asteroid with record-short year
Washington (UPI) Jul 9, 2019
Scientists have identified an asteroid with the shortest known orbital period. The newfound space rock, measuring a kilometer wide, circles the sun once every 151 days. Upon its closest approach to the sun, the asteroid, dubbed 2019 LF6, moves inside Mercury's orbit. On its aphelion, the portion of the asteroid's orbit farthest from the sun, 2019 LF6 moves beyond the orbit of Venus. "You don't find kilometer-size asteroids very often these days," Quanzhi Ye, a postdoctoral scholar at the ... read more
|The content herein, unless otherwise known to be public domain, are Copyright 1995-2022 - Space Media Network. All websites are published in Australia and are solely subject to Australian law and governed by Fair Use principals for news reporting and research purposes. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA news reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. All articles labeled "by Staff Writers" include reports supplied to Space Media Network by industry news wires, PR agencies, corporate press officers and the like. Such articles are individually curated and edited by Space Media Network staff on the basis of the report's information value to our industry and professional readership. Advertising does not imply endorsement, agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. General Data Protection Regulation (GDPR) Statement Our advertisers use various cookies and the like to deliver the best ad banner available at one time. All network advertising suppliers have GDPR policies (Legitimate Interest) that conform with EU regulations for data collection. By using our websites you consent to cookie based advertising. If you do not agree with this then you must stop using the websites from May 25, 2018. Privacy Statement. Additional information can be found here at About Us.|