Sunday, December 06, 2020

SPACE RACE 2.0
Japan retrieves asteroid samples in hunt for origins of planets

By Stanley White, Melanie Burton

DECEMBER 5, 2020

TOKYO/MELBOURNE (Reuters) - Japan has retrieved a capsule of asteroid dust from Australia’s remote outback after a six-year mission that may help uncover more about the origins of the planets and water, the Asian nation’s space agency said on Sunday.

 
Japan Aerospace Exploration Agency (JAXA) Hayabusa2's capsule carrying the first extensive samples of an asteroid lit up as it enters the earth's atmosphere while it is observed at Coober Pedy, Australia, in this photo taken by Kyodo December 6, 2020. Mandatory credit Kyodo/via REUTERS

The mission of the Japanese spacecraft, Hayabusa2, spotlights Asia’s growing role in space exploration, with a Chinese robotic vehicle collecting lunar samples last week for the first time since the 1970s.

A helicopter flew the capsule from the unmanned craft, containing the first extensive samples of asteroid dust, from the landing site in Australia’s desert to a domestic research facility of the Japan Aerospace Exploration Agency (JAXA).

“The probe landed on the asteroid twice, and the second time it created an artificial crater and collected some debris,” agency president Hiroshi Yamakawa told a news conference.

“I hope this will shed light on how the solar system was formed and how water was brought to Earth.”

The capsule may also contain some gas, which will be extracted in Australia, Yamakawa added.

The spacecraft, launched in 2014 from Japan’s Tanegashima space centre, journeyed for four years to the asteroid Ryugu, where it gathered a sample and headed home in November 2019.

Spectators gathered at a theatre near the Japanese capital of Tokyo to view the return clapped and waved banners in NHK footage, with one woman in tears. They wore masks and kept a distance from each other as precautions against the coronavirus.

Asteroids are believed to have formed at the dawn of the solar system, and scientists say the sample may contain organic matter that could have contributed to life on Earth.

“What we are really doing here is trying to sample this pristine rock that has not been irradiated by the sun,” astrophysicist Lisa Harvey-Smith told the Australian Broadcasting Corporation.

Gases trapped in the rock samples could reveal more about conditions prevailing about 4.6 billion years ago, she added.

The retrieval of the capsule also highlights close technical cooperation between Japan and Australia.

“Our job supporting JAXA will not be complete until we see the sample... safely leaves Australia and returns to Japan,” Megan Clark, head of the Australian Space Agency, told the news conference.

“And then the sample will start to tell its stories and reveal to us some wonderful signs about how water arrived on our Earth and how we even may have been formed, such as our organics, carbon-based animals, humans, and plants.”

Japan’s craft, named for the peregrine falcon, a bird of prey, orbited above the asteroid for a few months to map its surface before landing. It used small explosives to blast a crater and collected the resulting debris.

After Hayabusa2 dropped off the capsule, it changed course and headed back into space.

The capsule lit up on re-entry into the atmosphere early on Sunday and landed in the Woomera restricted area, about 460 km (285 miles) north of Adelaide, the space agency said.

Reporting by Melanie Burton; Editing by William Mallard and Clarence Fernandez

Japan’s Hayabusa2 Capsule Successfully Returns Rare Asteroid Ryugu Samples to Earth
DECEMBER 5, 2020

Japan Aerospace Exploration Agency (JAXA) celebrated its successful Hayabusa2 mission as a specialized capsule dropped off rare asteroid samples – 100 milligrams to be exact – before moving on to the next part of its extended mission of visiting more space rocks. These samples come from Ryugu, a half-mile-wide asteroid that travels through our solar system up to 131 million miles from the sun. Hayabusa-2 was first launched in 2014 with the aim of collecting the first sample of material from below an asteroid’s surface. 

Asteroids are essentially the leftovers of our early solar system, 4.5 billion years ago, and what scientists may discover in these primitive space rocks could answer a lot of questions about the solar system’s history. Ryugu, a C-type asteroid, is rich with organic carbon molecules, like water, and amino acids, which are the building blocks for proteins that were important to the evolution of life on Earth.

Organic materials are the origins of life on Earth, but we still don’t know where they came from. We are hoping to find clues to the origin of life on Earth by analyzing details of the organic materials brought back by Hayabusa2,” said M
akoto Yoshikawa, a Hayabusa2 project mission manager.





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