‘A treasure for scientific analysis’: Nasa holds Bennu asteroid sample press conference – as it happened

“One of the key scientific objectives for our sample analysis program is to characterize the thermal properties,” said Osiris-Rex principal investigator Dante Lauretta.

He added that the mission team is working alongside partners at the University of Arizona, as well as partners in Japan and Canada to “measure thermal conductivity, thermal skin depth and bulk density, and other key parameters that will feed into understanding the thermal inertia.”

“The Utah Test and Training Range is an amazing place to land a sample,” said Mike Moreau, Osiris-Rex recovery lead at Nasa’s Goddard Space Flight Center.

“It’s very flat, it’s free of hazards, and they have these amazing tracking resources here,” he added.

“The reason why we should be investing our taxpayer dollars in these missions of exploration – of course, the science is fantastic, the engineering is beyond amazing – but the inspirational value is really where the long-term payoff comes from these,” said Lauretta.

“This is about the future generations,” the Osiris-Rex principal investigator continued.

“I teach undergraduate and graduate students, and so many of them said, ‘We are here because of Osiris-Rex, we came to Tucson because the Osiris-Rex mission was based here.’

“It was just an amazing example of what people can do when we put aside our differences and focus on a common goal. We can achieve great things – this country can achieve great things but we have to work together to make that happen,” he said.

“Did we bring back what we thought or is it something completely different? Knowing Bennu, it might be a little both, so I can’t wait to see that,” said Lauretta.

He added that he expects to have a “pretty good idea of what the nature of the collection is” by 14 October.

“It’s the end of a journey and the beginning of a new one because we’re going into the atomic realm,” added Lauretta.

“We’re going into the mineralogy, the chemistry, the organics and the history of the solar system, which is what I signed up for all those years ago,” he said.

“I’m getting really excited about getting into the lab and really digging into the samples and answering all the questions that have come up before we launch and especially from our encounter with asteroid Bennu … A lot of new science ideas came out of that,” he added.

“These samples are an amazing treasure trove for generations,” said Eileen Stansbery, chief scientist at Nasa’s Johnson Space Center.

“The entry into the clean room has gone extremely well. They’re processing the capsule, removing portions of the canister so that they can get a continuous flow of nitrogen into the sample canister to ensure that there is no contamination from the Earth’s atmosphere into that canister and maintain the pristine entity of the samples.”

She added that once the sample capsule is processed through the clean room, 200-plus people all over world can start studying the samples.

“The curatorial team at the Johnson Space Center is working hand in glove with the spacecraft engineering team and the science team to ensure that we are processing and handling this sample return capsule in a measured, methodical, well-choreographed sequence,” she said.

“This capsule literally has a personality and it understood the assignment,” said Tim Priser, chief engineer for deep space exploration at Lockheed Martin.

“It’s the best job an engineer could ever have, to help a scientist go gather this knowledge. It just is so thrilling and rewarding,” he said.

“Today, Osiris-Rex, not only four hours before entry, did she understand the assignment and put this sample return capsule on a path to hit an entry interface that needed to be so precise that you didn’t skip out of the atmosphere, or you hit it too deep and you burned up before you had a chance to get to the ground. So she did that flawlessly,” he added.

“We don’t want biological organisms interacting with this so we plan to exclude it from any contact with bacteria or anything else that might compromise our scientific investigation,” said Osiris-Rex principal investigator Dante Lauretta.

“We’re going to start processing that sample we hope as early as Tuesday of next week,” he said.

“It was pulse pounding, I’m sure for you watching it, even more for those of us in the helicopters, waiting for that main shoot to come out,” said Dante Lauretta, the Osiris-Rex principal investigator who was part of the recovery team.

“We were with bated breath, making sure that we came down for a nice soft landing in the Utah desert, and it worked spectacularly well … It didn’t roll, didn’t bounce. It just made a tiny little divot in the Utah soil. So for the environmental sampling team, that was great,” he said.

“I couldn’t be more proud. And just to remind you, not only did we bring this mission in on schedule, under budget and delivered more science than we had ever thought was possible with the encounter with Bennu, but we think we’ve got a lot of sample in that canister,” he continued.

“What an incredible day this has been,” said Lori Glaze, director of Nasa’s planetary science division.

“These types of samples, they are truly the gifts that keep on giving. They are a treasure and this mission Osiris-Rex is kicking off a decade of sample return,” she added.

“Those [samples] are going to be a treasure for scientific analysis for years and years to come to our kids and our grandkids and people who haven’t even been born yet,” she continued.

Here is video of the moment the sample capsule got rolled into the temporary clean room facility in Utah:

Crew members have rolled the sample capsule into the highly-secured clean room and are set to extract the sample canister from the capsule.

This significant moment marks the successful delivery from the Utah desert into the Utah test and training range clean room, and of course the 1.2 billion mile journey from the asteroid Bennu back to Earth.

Team members carried the sample capsule onto a cart and have rolled the capsule into the portable clean room facility.

Tomorrow morning, a C17 cargo plane is set to transport the sample to the Johnson Space Center in Houston.

Here is video of the moment scientists bagged the sample capsule following its historic landing in the Utah desert:

The helicopter pilot set to transport the sample capsule has removed one of the doors on the helicopter so he could look out and ensure the sample capsule in its cargo netting is being safely transported, said Nasa TV.

In just a few moments, the sample capsule will be set for lift off. Nasa TV explains that the helicopter transportation process has been carefully rehearsed multiple times.

Mission members are also obtaining samples from the surrounding area of the landing zone where the sample capsule landed earlier this morning in the Utah desert.

Meanwhile, the sample capsule itself is being prepared to be attached to the long-line for helicopter operations – its final journey before it is opened up at the clean room and shipped to the Johnson Space Center in Houston.

The sample capsule has been bagged by recovery mission members.

It is set to be transported to the clean operation room next.

Proffesor Neil Bowles of the University of Oxford, who is among the scientists who will be studying the samples, said he was relieved to see the sample return capsule on the ground.

“Really excited for the next steps, getting the sample capsule safe in the clean room at Johnson Space Center and then seeing what is in side. So much new science to come!,” he told the Guardian.

A confirmation of no hazardous gases of the capsule has been issued.

Nasa TV shows mission members overjoyed in the control room as they watch their fellow team members evaluate the environmental safety of the capsule.

The recovery mission team is beginning to approach the capsule for the initial environmental safety sweep.

They will check for any unexploded ordinances and potential outgassing.

Here is a graphic on how samples were connected form the Bennu asteroid:

The first helicopter in the recovery mission has landed around 100-200 feet away from the capsule.

The team will first check the area for unexploded devices on the Utah test and training range where it landed.

Next up is the process of recovery operations to get the capsule out of the desert and into the clean operation room.

There it is! A view from the Nasa helicopter shows the capsule on the ground.

That will be a big relief to all.

While the parachute is clearly visible on screen, the capsule itself is not.

But there are smiles in the Nasa control room... have they spotted it?

The recovery process is now underway.

Nasa TV is showing a high-altitude view of the Utah desert, the parachute visible on the ground.

The location has been determined, and will be relayed to the team on board helicopters so they can quickly recover the capsule.

Nasa TV is now showing the tensely silent control room, where team members are sat around a table.

An announcement has been made that the helicopters have now been sent out to recover the capsule.

The parachute for the sample return capsule has been deployed as it prepares to land in the Utah desert.

The sample is expected to land on earth in the next five minutes.

Another hope is that by studying the samples from Bennu, scientists can compare their results against the data they obtained from instruments on board the spacecraft.

This ‘ground-truthing’ means they can then calibrate the latter, allowing them to more accurately explore differences in composition across the surface of Bennu. Remember - the samples that are heading from Earth only came from one small crater on the asteroid.

This ground-truthing will also be valuable for future missions, helping scientists to interpret observations of other asteroids and other bodies in the solar system that can only be studied by space telescopes.

While the samples from the Osiris Rex capsule will allow scientists to probe the makeup of asteroid Bennu, they will also be valuable for other reasons.

Among them, scientists hope to be able to compare their analyses of the Bennu samples with much smaller samples previously collected from the asteroids Itokawa and Ryugu in the Hayabusa missions by Japan.

While Itokawa is an “S-type” asteroid, meaning it is mainly composed of stony and metal type materials like nickel-iron, Ryugu is – like Bennu – rich in carbon-based substances.

Dr Ashley King of London’s Natural History Museum – who will be among the first scientists to work on the Bennu samples – told the Guardian that among the questions that researchers hope to probe is whether different carbon-rich asteroids like Bennu and Ryugu have a similar makeup, or whether they are very different, meaning there are many potential different sources for delivery of organic materials and water to the Earth.

In October 2020, the spacecraft got up close to the asteroid, reached out its sampling arm and scooped up a pile of dust and dirt.

But the carefully choreographed process was not without the odd hitch: the spacecraft grabbed so much material that the space rocks initially wedged open the lid of the sample container, resulting in a cloud of particles drifting into space.

Nonetheless, the team expect to have retrieved around 250g of rubble, the largest sample ever to be collected from an asteroid.

Following its successful smash and grab, the spacecraft carried out further studies on the asteroid from orbit, before beginning its 1.2-billion-mile journey home in May 2021.

Now, more than two years later, the world watches as the capsule with it precious cargo makes its descent to Earth.

With the material on board the Nasa capsule having been scooped up from an asteroid, an obvious concern is contamination.

But scientists are not worried that the space rocks will be harmful to life on Earth. For one thing, Bennu has been exposed to harsh radiation in space, ruling out the possibility that it is home to anything living.

Experts are also sanguine about other potential risks, noting that small samples previously collected from other bodies in space indicate that the rubble from Bennu is very unlikely to contain any dangerous chemicals or harmful levels radiation.

As we await the arrival of the capsule containing chunks of space rock from asteroid Bennu, it is worth looking back at how we got to this point and the incredible achievement of the scientists involved.

The name of the mission in full is quite a mouthful: origins, spectral interpretation, resource identification, security-regolith explorer. But in brief, it might be better described as a space-based smash and grab.

The target, Bennu, is essential a pile of rubble that is loosely held together by gravity. It is about as wide as the Empire State Building is tall and is on an orbit around the Earth, passing close to our planet every six years or so.

The Osiris-Rex spacecraft, which is about the size of a transit van, blasted off towards Bennu in September 2016, reaching the asteroid two year later, in December of 2018. Once in orbit – flying just a mile above the asteroid, scooping the record for the closest orbit of a planetary body by a spacecraft – it began mapping Bennu, allowing scientists to select the best site for recovery of the samples.The destination, it was decided, would be the asteroid’s Nightingale Crater.

Good morning US readers and good afternoon UK readers,

A highly-anticipated asteroid sample from Nasa’s seven-year Osiris-Rex mission is set to enter Earth’s atmosphere today.

Earlier this morning, at 6.42am ET/11.42am BST, the Osiris-Rex spacecraft released a capsule containing samples of rubble and dust it collected from the near-Earth asteroid Bennu.

That capsule is now hurtling towards Earth at around 27,650 miles per hour.

About 20 minutes after releasing the capsule, the spacecraft itself turned tail and has blasted away from Earth to begin a new mission to explore another asteroid, known as Apophis, which it will take around six years to reach.

For now, we wait with bated breath for the Bennu samples to reach Earth, with touchdown expected around 10.55am ET/15.55am BST.

The sample from Bennu “acts as a time capsule from the earliest days of our solar system and will help us answer big questions about the origins of life and the nature of asteroids,” said Nasa.

Stay tuned as we bring you the latest updates on this historic return.