James Cameron once got himself onto the list for a potential visit to the International Space Station. It's just one of several surprising scientific achievements buried deep inside GQ's massive 7,000-word profile: After James Cameron's Avatar came out in 2009 and made $2.7 billion, the director found the deepest point that exists in all of earth's oceans and, in time, he dove to it. When Cameron reached the bottom of the Mariana Trench, a couple of hundred miles off the southwest coast of Guam, in March 2012, he became the first person in history to descend the 6.8-mile distance solo, and one of only a few people to ever go that deep....

It would be fair to call him the father of the modern action movie, which he helped invent with his debut, The Terminator, and then reinvent with his second, Aliens; it would be accurate to add that he has directed two of the three top-grossing films in history, in Avatar (number one) and Titanic (number three). But he is also a scientist — a camera he helped design served as the model for one that is currently on Mars, attached to the Mars rover — and an adventurer, and not in the dilettante billionaire sense; when Cameron sets out to do something, it gets done. "The man was born with an explorer's instincts and capacity," Daniel Goldin, the former head of NASA, told me....

The original Avatar... required the invention of dozens of new technologies, from the cameras Cameron shot with to the digital effects he used to transform human actors into animated creatures to the language those creatures spoke in the film. For [his upcoming Avatar sequel] The Way of Water, Cameron told me, he and his team started all over again. They needed new cameras that could shoot underwater and a motion-capture system that could collect separate shots from above and below water and integrate them into a unified virtual image; they needed new algorithms, new AI, to translate what Cameron shot into what you see....

Among other things, Cameron said, The Way of Water would be a friendly but pointed rebuke to the comic book blockbusters that now war with Cameron's films at the top of the box office lists: "I was consciously thinking to myself, Okay, all these superheroes, they never have kids. They never really have to deal with the real things that hold you down and give you feet of clay in the real world." Sigourney Weaver, who starred in the first Avatar as a human scientist and returns for The Way of Water as a Na'vi teenager, told me that the parallels between the life of the director and the life of his characters were far from accidental: "Jim loves his family so much, and I feel that love in our film. It's as personal a film as he's ever made."
Another interesting detail from the article: Cameron and his wife became vegetarians over a decade ago, built their own pea-protein facility in Saskatchewan, and though they later sold it Cameron says he "pretty much" loves farming and pea protein as much as movies. And he once suggested re-branding the word vegan as "futurevore," since "We're eating the way people will eat in the future. We're just doing it early."

But in a 29-minute video interview, Cameron also fondly discusses his earlier ground-breaking films, even as GQ's writer notes their new trajectory. "It is a curious fact that Cameron has directed only two feature films in the last 25 years — and perhaps more curious that both are Avatar installments, and perhaps even more curious that the next three films he hopes to direct are also Avatar sequels....

"Cameron told me he'd already shot all of a third Avatar, and the first act of a fourth. There is a script for a fifth and an intention to make it, as long as the business of Avatar holds up between now and then. It seems entirely possible — maybe even probable — that Cameron will never make another non-Avatar film again."

"News from Mars," CNN reported Friday. "Not just that water was there, perhaps millions of years ago, but also these organic compounds."

In an interview with the head of Earth Sciences collections at the UK's Natural History Musem, CNN asked the million-dollar question. "How much more likely, if you believe so, that that makes it that there was life on Mars at some time." A: So what we've found with data that's come back from the Rover and has been studied over the last few months is that we see igneous rocks -- so these are rocks that have been formed through volcanic processes -- which have also been affected by the action of liquid water.

And that's really really interesting and exciting, because liquid water is one of the key ingredients you need for life to start. So if you've got the chances of life ever being on Mars, you'd need to have somewhere that had liquid water for at least a period of time. And we've got good evidence for that.

Now that's combined with the fact that we're seeing, using instruments like SHERLOCK, which is an instrument that I'm involved with, also the presence of organic molecules. And organic molecules are chemical molecules made of the elements carbon, hydrogen, oxygen, nitrogen, sometimes bits of sulfur, sometimes bits of phosphorous, and maybe some added-up things. And those are really really important, because you need organic molecules for life to start.

And the other thing that's really interesting about organic molecules is they can actually be sort of fossil chemical evidence of potential past life.

About an hour ago SpaceX began tweeting video highlights of their latest launch — a NASA-commissioned resupply mission for the International Space Station.

- "Liftoff!"

- "Falcon 9's first stage has landed on the Just Read the Instructions droneship"

- "Dragon separation confirmed; autonomous docking to the Space Station on Sunday, November 27 at ~7:30 a.m. ET"

You can watch the whole launch on SpaceX's web site. But CNN explains that SpaceX "has launched more than two dozen resupply missions to the space station over the past decade as part of a multibillion-dollar deal with NASA. This launch comes amid SpaceX's busiest year to date, with more than 50 operations so far, including two astronaut missions."

And yet this one carries something unique. (And it's not just the Thanksgiving-themed treats and solar arrays to boost the space station's power...) Nutrients are a key component of maintaining good health in space. But fresh produce is in short supply on the space station compared with the prepackaged meals astronauts eat during their six-month stays in low-Earth orbit. "It is fairly important to our exploration goals at NASA to be able to sustain the crew with not only nutrition but also to look at various types of plants as sources for nutrients that we would be hard-pressed to sustain on the long trips between distant destinations like Mars and so forth," said Kirt Costello, chief scientist at NASA's International Space Station Program and a deputy manager of the ISS Research Integration Office.

Astronauts have grown and tasted different types of lettuce, radishes and chiles on the International Space Station. Now, the crew members can add some dwarf tomatoes — specifically, Red Robin tomatoes — to their list of space-grown salad ingredients. The experiment is part of an effort to provide continuous fresh food production in space.... The space tomatoes will be grown inside small bags called plant pillows installed in the Vegetable Production System, known as the Veggie growth chamber, on the space station. The astronauts will frequently water and nurture the plants....

The hardware is still in development for larger crop production on the space station and eventually other planets, but scientists are already planning what plants might grow best on the moon and Mars. Earlier this year, a team successfully grew plants in lunar soil that included samples collected during the Apollo missions. "Tomatoes are going to be a great crop for the moon," Massa said. "They're very nutritious, very delicious, and we think the astronauts will be really excited to grow them there."

In 1999, Slashdot editor Hemos said Greg Bear was "rightly recognized as a master of hard science fiction" (introducing a review of Bear's then-new book, Nebula-winning book Darwin's Radio). In 2011 Bear began writing the Forerunner Saga , a trilogy of books set 100,000 years before the events in the game Halo.

Today theGamer.com writes that Bear has passed away at age 71: Bear's family and fans are paying tribute to the legendary author, who had more than 50 sci-fi novels to his name. Many share fond memories of reading Bear's work and meeting him at conventions, describing him as generous, welcoming, and brilliant. Fans are also sharing their favourite books from Bear in tribute, encouraging others to explore his works to celebrate his legacy.

Bear's wife, Astrid Bear, confirmed the news of his passing in the early hours of Sunday. This was after she revealed that her husband has been placed on life support, with no chance of making a full recovery after the stroke.
More from File770.com: Bear's novels won Nebulas for Moving Mars (1995) and Darwin's Radio. Three other works of short fiction won Nebulas, and two of those — "Blood Music" (1984) and "Tangents" (1987) — also won the Hugo....

Bear sold his first short story, "Destroyers", to Famous Science Fiction at age 15, and along with high-school friends helped found San Diego Comic-Con.

He also published work as an artist at the beginning of his career, including illustrations for an early version of theÂStar Trek Concordance,Âand covers forÂGalaxyÂandÂF&SF. He was a founding member of the Association of Science Fiction Artists. He even created the cover for his novel, Psychlone...

NASA's Artemis 1 rocket blasted off the Kennedy Space Center in the early hours of Wednesday, "lighting up the night sky and accelerating on a journey that will take an astronaut-less capsule around the moon and back," reports the New York Times. From the report: At around 1:47 a.m. Eastern time, the four engines on the rocket's core stage ignited, along with two skinnier side boosters. As the countdown hit zero, clamps holding the rocket down let go, and the vehicle slipped Earth's bonds. A few minutes later, the side boosters and then the giant core stage dropped away. The rocket's upper engine then ignited to carry the Orion spacecraft, where astronauts will sit during later missions, toward orbit. Less than the two hours after launch, the upper stage will fire one last time to send Orion on a path toward the moon. On Monday, Orion will pass within 60 miles of the moon's surface. After going around the moon for a couple of weeks, Orion will head back to Earth, splashing down on Dec. 11 in the Pacific Ocean, about 60 miles off the coast of California.

This flight, evoking the bygone Apollo era, is a crucial test for NASA's Artemis program that aims to put astronauts, after five decades of loitering in low-Earth orbit, back on the moon. For NASA, the mission ushers in a new era of lunar exploration, one that seeks to unravel scientific mysteries in the shadows of craters in the polar regions, test technologies for dreamed-of journeys to Mars and spur private enterprise to chase new entrepreneurial frontiers farther out in the solar system. [...] The launch occurred years behind schedule, and billions of dollars over budget. The delays and cost overruns of S.L.S. and Orion highlight the shortcomings of how NASA has managed its programs. The next Artemis mission, which is to take four astronauts on a journey around the moon but not to the surface, will launch no earlier than 2024. Artemis III, in which two astronauts will land near the moon's south pole, is currently scheduled for 2025, though that date is very likely to slip further into the future. NASA posted a video of the liftoff on their Twitter. Additional updates are available @NASA_SLS.

UPDATE 7:22 UTC: NASA's Artemis 1 rocket blasted off the Kennedy Space Center in the early hours of Wednesday, "lighting up the night sky and accelerating on a journey that will take an astronaut-less capsule around the moon and back," reports the New York Times. From the report: At around 1:47 a.m. Eastern time, the four engines on the rocket's core stage ignited, along with two skinnier side boosters. As the countdown hit zero, clamps holding the rocket down let go, and the vehicle slipped Earth's bonds. A few minutes later, the side boosters and then the giant core stage dropped away. The rocket's upper engine then ignited to carry the Orion spacecraft, where astronauts will sit during later missions, toward orbit. Less than the two hours after launch, the upper stage will fire one last time to send Orion on a path toward the moon. On Monday, Orion will pass within 60 miles of the moon's surface. After going around the moon for a couple of weeks, Orion will head back to Earth, splashing down on Dec. 11 in the Pacific Ocean, about 60 miles off the coast of California.

This flight, evoking the bygone Apollo era, is a crucial test for NASA's Artemis program that aims to put astronauts, after five decades of loitering in low-Earth orbit, back on the moon. For NASA, the mission ushers in a new era of lunar exploration, one that seeks to unravel scientific mysteries in the shadows of craters in the polar regions, test technologies for dreamed-of journeys to Mars and spur private enterprise to chase new entrepreneurial frontiers farther out in the solar system. [...] The launch occurred years behind schedule, and billions of dollars over budget. The delays and cost overruns of S.L.S. and Orion highlight the shortcomings of how NASA has managed its programs. The next Artemis mission, which is to take four astronauts on a journey around the moon but not to the surface, will launch no earlier than 2024. Artemis III, in which two astronauts will land near the moon's south pole, is currently scheduled for 2025, though that date is very likely to slip further into the future. The original story from Space.com: NASA's Artemis 1 moon mission will once again attempt to launch after all. Mission managers met on Monday (Nov. 14) to discuss the flight readiness of the Artemis 1's Space Launch System (SLS) rocket and Orion spacecraft following slight damage caused by Hurricane Nicole, which was swiftly downgraded to a tropical storm after making landfall, on Thursday (Nov. 10). Despite the fact that a band of insulating caulking on Orion was damaged by high winds during the storm's landfall, Mike Sarafin, Artemis mission manager at NASA headquarters in Washington, said "there's no change in our plan to attempt to launch on the 16th" during a media teleconference today (Nov. 14).

"The unanimous recommendation for the team was that we were in a good position to go ahead and proceed with the launch countdown," added Jeremy Parsons, deputy manager of NASA's Exploration Ground Systems program at Kennedy Space Center (KSC) in Florida. If all goes according to plan during additional preflight checks and the cryogenic fueling process on Tuesday (Nov. 15), the Artemis 1 mission will launch from Launch Pad 39B at 1:04 a.m. EST (0604 GMT) on Nov. 16. You can watch the countdown, fueling and launch of Artemis 1 live online here on Space.com courtesy of NASA.

The United Nations is betting that satellites could help the world catch up on emissions reductions. From a report: The organization has unveiled a Methane Alert and Response System (MARS) that, as the name implies, will warn countries and companies of "major" methane emission releases. The technology will use satellite map data to identify sources, notify the relevant bodies and help track progress on lowering this output.

The initial MARS platform will focus on "very large" energy sector sources. It'll gradually expand to include less powerful sources, more frequent alerts and data from animals, coal, rice and waste. Partners in the program, such as the International Energy Agency and UN's Climate and Clean Air Coalition, will provide help and advice. The information also won't remain a secret, as the UN will make both data and analyses public between 45 to 75 days after it's detected. The system will get its early funding from the US government, European Commission, Bezos Earth Fund and the Global Methane Hub. Both Bezos' fund and GMH are backing related efforts, such as studies on spotting and counteracting agricultural methane emissions.

On Thursday morning, NASA sent a giant inflatable device to space and then brought it back down from orbit, splashing in the ocean near Hawaii. From a report: You might think of it as a bouncy castle from space, although the people in charge of the mission would prefer you did not. "I would say that would be inaccurate," Neil Cheatwood, principal investigator for the Low-Earth Orbit Flight Test of an Inflatable Decelerator, or LOFTID for short, said of the comparison during an interview. LOFTID may sound like just an amusing trick, but the $93 million project demonstrates an intriguing technology that could help NASA in its goal of getting people safely to the surface of Mars someday. The agency has landed a series of robotic spacecraft on Mars, but the current approaches only work for payloads weighing up to about 1.5 tons -- about the bulk of a small car. That is inadequate for the larger landers, carrying 20 tons or more, that are needed for people and the supplies they will need to survive on the red planet.

A more accurate description of the device might be that it is a saucer, 20 feet wide when inflated. It is made of layers of fabric that can survive falling into the atmosphere at 18,000 miles per hour and temperatures close to 3,000 degrees Fahrenheit. Still, an inflatable heat shield shares a key characteristic with a bouncy castle: Uninflated, it can be folded and packed tightly. LOFTID fit in a cylinder a bit over four feet wide and one and a half feet high. For a traditional rigid heat shield, there is no way to cram something 20 feet in diameter into a rocket that is not that wide. A larger surface like LOFTID's generates much more air friction -- essentially it is a better brake as it slices through the upper atmosphere, and the greater drag allows heavier payloads to be slowed down. For future Mars missions, the inflatable heat shield would be combined with other systems like parachutes and retrorockets to guide the lander en route to a soft landing.

Rocket designers with China's main launch vehicle institute have scrapped plans for an expendable super heavy-lift launcher in favor of a design featuring a reusable first stage. SpaceNews reports: A new model of a Long March 9 rocket featuring grid fins and no side boosters recently went on display at the ongoing Zhuhai Airshow in southern China, prompting speculation that the long-standing plan of an expendable rocket had been dropped. Liu Bing, director of the general design department at the China Academy of Launch Vehicle Technology (CALT), later confirmed the new direction in an interview with China Central Television Nov. 7.

The new, current plan for the rocket will be a three-stage, 108-meter-high, 10-meter-diameter and 4,180 metric ton rocket capable of delivering 150 tons to low Earth orbit (LEO), 50 tons to lunar transfer orbit (LTO), or 35 tons to Mars transfer orbit. The rocket is scheduled to be ready for test flight around 2030. Liu told CCTV however that the design has not been finalized and will likely see changes as the team selects the optimal pathway, while committing to the goal of constantly breaking through technological challenges and increasing its launching power.

CNET reports on how research in Antarctica "could change astronomy forever": About 47 million light-years from where you're sitting, the center of a black-hole-laden galaxy named NGC 1068 is spitting out streams of enigmatic particles. These "neutrinos" are also known as the elusive "ghost particles" that haunt our universe but leave little trace of their existence.... Nestled into about 1 billion tons of ice, more than 2 kilometers (1.24 miles) beneath Antarctica, lies the IceCube Neutrino Observatory. A neutrino hunter, you might call it. When any neutrinos transfer their party to the frigid continent, IceCube stands ready.

In a paper published Friday in the journal Science, the international team behind this ambitious experiment confirmed it has found evidence of 79 "high-energy neutrino emissions" coming from around where NGC 1068 is located, opening the door for novel — and endlessly fascinating — types of physics. "Neutrino astronomy," scientists call it.

It'd be a branch of astronomy that can do what existing branches simply cannot.

Before today, physicists had only shown neutrinos coming from either the sun; our planet's atmosphere; a chemical mechanism called radioactive decay; supernovas; and — thanks to IceCube's first breakthrough in 2017 — a blazar, or voracious supermassive black hole pointed directly toward Earth. A void dubbed TXS 0506+056. With this newfound neutrino source, we're entering a new era of the particle's story. In fact, according to the research team, it's likely neutrinos stemming from NGC 1068 have up to millions, billions, maybe even trillions the amount of energy held by neutrinos rooted in the sun or supernovas. Those are jaw-dropping figures because, in general, such ghostly bits are so powerful, yet evasive, that every second, trillions upon trillions of neutrinos move right through your body. You just can't tell....

Not only is this moment massive because it gives us more proof of a strange particle that wasn't even announced to exist until 1956, but also because neutrinos are like keys to our universe's backstage. They hold the capacity to reveal phenomena and solve puzzles we're unable to address by any other means, which is the primary reason scientists are trying to develop neutrino astronomy in the first place.... Expected to be generated behind such opaque screens filtering our universe, these particles can carry cosmic information from behind those screens, zoom across great distances while interacting with essentially no other matter, and deliver pristine, untouched information to humanity about elusive corners of outer space.
The team says their data can provide information on two great unsolved mysteries in astronomy: why black holes emit sporadic blasts of light, and neutrinos' suspected role in the origin of cosmic rays.

The mission of NASA's robotic lander InSight "is nearing an end as dust obscures its solar panels," reports CNN. "In a matter of weeks, the lander won't be able to send a beep to show it's OK anymore."

"Before it bids farewell, though, the spacecraft still has some surprises in store." When Mars rumbled beneath InSight's feet on December 24, NASA scientists thought it was just another marsquake. The magnitude 4 quake was actually caused by a space rock slamming into the Martian surface a couple thousand miles away. The meteoroid left quite a crater on the red planet, and it revealed glimmering chunks of ice in an entirely unexpected place — near the warm Martian equator.
The chunks of ice — the size of boulders — "were found buried closer to the warm Martian equator than any ice that has ever been detected on the planet," CNN explained earlier this week. The article also adds that ice below the surface of Mars "could be used for drinking water, rocket propellant and even growing crops and plants by future astronauts. And the fact that the ice was found so near the equator, the warmest region on Mars, might make it an ideal place to land crewed missions to the red planet." Interestingly, they note that scientists only realized it was a meteoroid strike (and not an earthquake) when "Before and after photos captured from above by the Mars Reconnaissance Orbiter, which has been circling Mars since 2006, spotted a new crater this past February." A crater that was 492 feet (150 meters) across and 70 feet (21 meters) deep... When scientists connected the dots from both missions, they realized it was one of the largest meteoroid strikes on Mars since NASA began studying the red planet.... The journal Science published two new studies describing the impact and its effects on Thursday....

"The image of the impact was unlike any I had seen before, with the massive crater, the exposed ice, and the dramatic blast zone preserved in the Martian dust," said Liliya Posiolova, orbital science operations lead for the orbiter at Malin Space Science Systems in San Diego, in a statement....

Researchers estimated the meteoroid, the name for a space rock before it hits the ground, was about 16 to 39 feet (5 to 12 meters). While this would have been small enough to burn up in Earth's atmosphere, the same can't be said for Mars, which has a thin atmosphere only 1% as dense as Earth's.... Some of the material blasted out of the crater landed as far as 23 miles (37 kilometers) away.

Teams at NASA also captured sound from the impact, so you can listen to what it sounds like when a space rock hits Mars. The images captured by the orbiter, along with seismic data recorded by InSight, make the impact one of the largest craters in our solar system ever observed as it was created.

NASA obligated $2.04 billion to SpaceX in fiscal year 2022, which ended last month, according to new federal procurement data. For the first time, the amount paid by the space agency to SpaceX exceeds that paid to Boeing, which has long been the leading hardware provider to NASA. Boeing received $1.72 billion during the most recent fiscal year, based on data first reported by Aviation Week's Irene Klotz. Ars Technica reports: The California Institute of Technology, which manages the Jet Propulsion Laboratory field center for NASA, remains the agency's No. 1 contractor, with $2.68 billion in funding. The academic institution is responsible for operating the California-based NASA field center and distributing funding for myriad robotic spacecraft missions such as Mars Perseverance and the Europa Clipper. On the one hand, the ascension of SpaceX to the No. 2 spot on NASA's contractor list represents a major shakeup in the order of things. For a long time, NASA's human spaceflight and exploration programs were dominated by Boeing, Lockheed Martin, Aerojet, Northrop Grumman, and a handful of other traditional defense aerospace contractors.

However, it should come as no surprise that a company that has recently delivered the most services -- and, arguably, value -- to NASA should start to receive a large share of its contract awards. This has been most notable with SpaceX's performance on Commercial Crew, NASA's program to buy transportation services from private companies to bring its astronauts to and from the International Space Station. NASA awarded contracts to Boeing and SpaceX in 2014 to develop their spacecraft, paying Boeing about 60 percent more. At the time, it was widely believed that the traditional contractor, with this additional money, would deliver services sooner. But it was SpaceX that first flew crew to the space station in May 2020, and the company has since launched five operational missions to the orbiting laboratory. [...] Much of the funding increase for SpaceX in 2022, an increase of about $400 million over the previous year, appears to be driven by contracts for the Human Landing System as part of the Artemis Moon Program and the purchase of additional Crew Dragon missions to the space station. (Individual contracts can be found within the Federal Procurement Data System).

One of Earth's toughest microbes could survive on Mars, lying dormant beneath the surface, for 280 million years, new research has shown. The findings increase the probability that microbial life could still exist on the Red Planet. Space.com reports: Deinococcus radiodurans, nicknamed "Conan the Bacterium," is one of the world's toughest microbes, capable of surviving in radiation strong enough to kill any other known life-form. Experiments have now shown that if Conan the Bacterium or a similar microbe existed on Mars, it could survive 33 feet (10 meters) beneath the surface, frozen and dried out, for 280 million years. In a study led by Michael Daly, who is a professor of pathology at Uniformed Services University of the Health Sciences in Maryland and a member of the National Academies' Committee on Planetary Protection, scientists tested half a dozen microbes and fungi -- all "extremophiles" able to live in environments where other organisms die -- to see how long they could survive in an environment that simulated the mid-latitudes of Mars. During the experiments, organisms faced temperatures as low as minus 80 degrees Fahrenheit (minus 63 degrees Celsius) and exposure to ultraviolet light, gamma rays and high-energy protons mimicking the constant bombardment of Mars by solar ultraviolet light and cosmic radiation sleeting down from space.

After the bacteria and fungi had been exposed to various radiation levels in the experiment, Daly's team measured how much manganese antioxidants had accumulated in the cells of the microbes. Manganese antioxidants form as a result of radiation exposure, and the more that form, the more radiation the microbes can resist. Conan the Bacterium was the clear winner. The researchers found that Conan the Bacterium could absorb as much as 28,000 times more radiation than what a human can survive. This measurement allowed Daly's team to estimate how long the microbe could survive at different depths on Mars. Previous experiments, in which Conan the Bacterium had been suspended in liquid water and subjected to radiation like that found on Mars, had indicated that the microbe could survive below the surface of Mars for 1.2 million years.

However, the new tests, in which the microbe was frozen and dried out to mimic the cold and dry conditions on Mars, suggested that Conan the Bacterium would be able to survive 280 million years on Mars if buried at a depth of 33 feet. This lifespan is reduced to 1.5 million years if buried just 4 inches (10 centimeters) below the surface, and just a few hours on the surface, which is bathed in ultraviolet light. [...] The research also determined why Conan the Bacterium is so resistant to radiation. The scientists found that chromosomes and plasmids, which carry genetic information, in the microbe's cells are linked together, which keeps these structures aligned and prevents irradiated cells from breaking down until they can be repaired. "Although Deinococcus radiodurans buried in the Martian subsurface could not survive dormant for the estimated 2 to 2.5 billion years since flowing water disappeared on Mars, such Martian environments are regularly altered and melted by meteorite impacts," he said in a statement. "We suggest that periodic melting could allow intermittent repopulation and dispersal."

The findings were detailed in the journal Astrobiology.

Local newspaper Mint reports: The Indian Space Research Organisation on 3 October confirmed that the Mars Orbiter craft has lost communication with ground station, it's non-recoverable and with this the Mangalyaan mission has attained end-of-life. Giving an update on the Mars Orbiter Mission (MOM), ISRO was celebrating the completion of its eight years in the Martian orbit and commemorate MOM. Despite being designed for a life-span of six months as a technology demonstrator, the MOM lived for about eight years in the Martian orbit with a gamut of significant scientific results on Mars as well as on the Solar corona.

Though it has lost communication with the ground station, due to a long eclipse in April 2022, ISRO said. ISRO deliberated that the propellant must have been exhausted, and therefore, the "desired altitude pointing" could not be achieved for sustained power generation. "It was declared that the spacecraft is non-recoverable, and attained its end-of-life", an ISRO statement said, adding, "The mission will be ever-regarded as a remarkable technological and scientific feat in the history of planetary exploration."

Noam Izenberg, a researcher at the Johns Hopkins University's applied physics laboratory, is making a case for sending a crewed mission to examine Venus en route to Mars. "Venus gets a bad rap because it's got such a difficult surface environment," said Izenberg in a report presented at the International Astronautical Congress in Paris last week. "The current Nasa paradigm is moon-to-Mars. We're trying to make the case for Venus as an additional target on that pathway." The Guardian reports: There are notable downsides. Walking on the surface would be an unsurvivable experience, so astronauts would have to gaze down at the planet from the safety of their spacecraft in a flyby mission. In its favor, however, Venus is significantly closer, making a return mission doable in a year, compared with a potentially three-year roundtrip to Mars. A flyby would be scientifically valuable and could provide crucial experience of a lengthy deep-space mission as a precursor to visiting Mars, according to a report presented at the International Astronautical Congress (IAC) in Paris last week.

Izenberg said there were practical arguments for incorporating a Venus flyby into the crewed Mars landing that Nasa hopes to achieve by the late 2030s. Although the planet is in the "wrong" direction, performing a slingshot around Venus -- known as a gravity assist - could reduce the travel time and the fuel required to get to the red planet. That would make a crewed flyby trip to Venus a natural stepping stone towards Nasa's ultimate goal. "You'd be learning about how people work in deep space, without committing yourself to a full Mars mission," he said. "And it's not just going out into the middle of nowhere -- it would have a bit of cachet as you'd be visiting another planet for the first time." "We need to understand how we can get out of the cradle and move into the universe," he added.

There is also renewed scientific interest in Venus. The discovery of thousands of exoplanets raises the question of how many might be habitable, and scientists want to understand how and why Venus, a planet so similar to our own in size, mass and distance from the sun, ended up with infernal surface conditions. Izenberg said a Venus flyby "doesn't yet have traction" in the broader space travel community, although there are advocates within Nasa, including its chief economist, Alexander Macdonald, who led the IAC session. Of course, there are those who push back against such an idea. "It's really not a nice place to go. It's a hellish environment and the thermal challenges for a human mission would be quite considerable," said Prof Andrew Coates, a space scientist at UCL's Mullard space science laboratory.

He said Venus was rightly a focus of scientific exploration, but that "a human flyby really wouldn't add very much."

Saturn has quite the collection of moons, more than any other planet in the solar system. There's Enceladus, blanketed in ice, with a briny ocean beneath its surface. There's Iapetus, half of which is dusty and dark, and the other shiny and bright. There are Hyperion, a rocky oval that bears a striking resemblance to a sea sponge, and Pan, tiny and shaped just like a cheese ravioli. But one moon might be missing. From a report: According to a new study, Saturn once had yet another moon, about the same size as Iapetus, which is the third-largest satellite in Saturn's collection. The moon orbited the ringed planet for several billion years, minding its own business, doing moon things, until about 100 million to 200 million years ago, when other Saturnian moons started messing with it. The interactions between them pushed the unlucky moon closer to Saturn -- too close to remain intact. Gravity shredded it to bits.

Something remarkable might have come out of all this. While most of the moon debris fell into Saturn's atmosphere, some of the pieces hung back, whirling around the planet until they splintered further and flattened into a thin, delicate disk. This lost moon, the authors of the study say, is responsible for Saturn's trademark feature: the rings. These astronomers didn't set out to find a missing moon. They were trying to better understand why Saturn is the way it is now -- specifically, why the planet is tilted just so. "Planetary tilts are an interesting indicator of a planet's history," Zeeve Rogoszinski, an astronomer at the University of Maryland who was not involved in this recent work but who studies orbital dynamics, told me. Most of the planets in our solar system spin at an angle relative to the plane in which they orbit the sun. Earth's tilt, for example, is a result of the collision that scientists believe might have created our moon. Mars's tilt is chaotic, thanks to the influence of next-door neighbor Jupiter. Uranus likely got its dramatic lean after the planet was whacked with a massive rocky object a few billion years ago.

The Mars rover Perseverance was the subject of a new NASA briefing Thursday. CNET describes it as a celebration of this year's discovery of organic matter — in June NASA for the first time measured the total amount of organic carbon in Martian rocks — and a celebration of rock samples. (Specifically, the two samples collected from mudstone rock on Wildcat Ridge in Jezero Crater.) The rover's Sherloc instrument investigated the rock. (Sherloc stands for Scanning Habitable Environments with Raman & Luminescence for Organics & Chemicals.) "In its analysis of Wildcat Ridge, the Sherloc instrument registered the most abundant organic detections on the mission to date," NASA said.

Scientists are seeing familiar signs in the analysis of Wildcat Ridge. "In the distant past, the sand, mud and salts that now make up the Wildcat Ridge sample were deposited under conditions where life could potentially have thrived," said Perseverance project scientist Ken Farley in a statement. "The fact the organic matter was found in such a sedimentary rock — known for preserving fossils of ancient life here on Earth — is important."

Perseverance isn't equipped to find definitive evidence of ancient microbial life on the red planet. "The reality is the burden of proof for establishing life on another planet is very, very high," said Farley during the press conference. For that, we need to examine Mars rocks up close and in person in Earth labs. Perseverance currently has 12 rock samples on board, including the Wildcat Ridge pieces and samples from another sedimentary delta rock called Skinner Ridge. It also collected igneous rock samples earlier in the mission that point to the impact of long-ago volcanic action in the crater. NASA is so happy with the diversity of samples collected that it's looking into dropping some of the filled tubes off on the surface soon in preparation for the future Mars Sample Return campaign.... The mission is under development. If all goes as planned, those rocks could be here by 2033 .
The hope is that in 2033, Perseverance will meet the lander "and personally deliver the samples," the article quips. But in the meantime, Perseverance "could wander up the crater rim." And there's one more update about the smaller exploration vehicle that Peseverance carried to Mars.

"Its companion Ingenuity helicopter is in good health and expected to take to the air again."

Nanoracks just made space construction and manufacturing history with the first demonstration of cutting metal in orbit. TechCrunch reports: The experiment was performed back in May by Nanoracks and its parent company Voyager Space, after getting to orbit aboard the SpaceX Transporter 5 launch. The company only recently released additional details on Friday. The goal of Outpost Mars Demo-1 mission was to cut a piece of corrosion-resistant metal, similar to the outer shell of United Launch Alliance's Vulcan Centaur and common in space debris, using a technique called friction milling. Welding and metal-cutting is a messy operation on Earth, but all of that dust and debris simply falls to the ground. But "when you're in space, in the vacuum, it doesn't really do that. It doesn't just float away necessarily either," Marshall Smith, Nanoracks' senior VP of space systems, explained to TechCrunch back in May. "What you want to do is to contain this debris, not necessarily because it might be a micrometeorites issue, which it could be as well, but mostly because you want to keep your work environment clean."

The entire demonstration lasted around one minute. The main goal -- to cut a single small sample of the steel -- was successfully completed. Inside the spacecraft were two additional samples to cut as a "reach goal," and Nanoracks is investigating why they weren't cut as well. It was conducted in partnership with Maxar Technologies, who developed the robotic arm that executed the cut. That arm used a commercially available friction milling end-effector, and the entire structure was contained in the Outpost spacecraft to ensure that no debris escaped. Indeed, one of the main goals of the demonstration was to produce no debris -- and it worked. Nanoracks used a type of metal similar to an upper stage of a rocket precisely because the company's long-term goal is to modify used upper stages and convert them into orbital platforms, or what it calls "outposts." According to Smith, this is just the beginning. In the future, Nanoracks will attempt cuts on a larger scale in its quest to eventually conduct larger construction efforts.

SiFive is the first company to produce a chip implementing the RISC-V ISA.

They've now been selected to provide the core CPU for NASA's next generation High-Performance Spaceflight Computing processor (or HSPC), according to a SiFive announcement: HPSC is expected to be used in virtually every future space mission, from planetary exploration to lunar and Mars surface missions.

HPSC will utilize an 8-core, SiFive® Intelligence X280 RISC-V vector core, as well as four additional SiFive RISC-V cores, to deliver 100x the computational capability of today's space computers. This massive increase in computing performance will help usher in new possibilities for a variety of mission elements such as autonomous rovers, vision processing, space flight, guidance systems, communications, and other applications....

The SiFive X280 is a multi-core capable RISC-V processor with vector extensions and SiFive Intelligence Extensions and is optimized for AI/ML compute at the edge. The X280 is ideal for applications requiring high-throughput, single-thread performance while under significant power constraints. The X280 has demonstrated a 100x increase in compute capabilities compared to today's space computers..

In scientific and space workloads, the X280 provides several orders of magnitude improvement compared to competitive CPU solutions.
A business development executive at SiFive says their X280 core "demonstrates orders of magnitude performance gains over competing processor technology," adding that the company's IP "allows NASA to take advantage of the support, flexibility, and long-term viability of the fast-growing global RISC-V ecosystem.

"We've always said that with SiFive the future has no limits, and we're excited to see the impact of our innovations extend well beyond our planet."

And their announcement stresses that open hardware is a win for everybody: The open and collaborative nature of RISC-V will allow the broad academic and scientific software development community to contribute and develop scientific applications and algorithms, as well optimizing the many math functions, filters, transforms, neural net libraries, and other software libraries, as part of a robust and long-term software ecosystem.

Stefanie Waldek reports via Space.com: Led by the Massachusetts Institute of Technology (MIT), the Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) is a small instrument on the Perseverance rover that's designed to transform carbon dioxide, which comprises some 96% of the atmosphere on Mars, into breathable oxygen. Oxygen, of course, is crucial for a human mission to Mars. Since February 2021, the device has run seven times, each time producing about 0.2 ounces (6 grams) of oxygen per hour. That's on par with the abilities of small trees here on Earth.

MOXIE has now operated in a variety of conditions on Mars, both day and night, through all four seasons. The researchers expect that a version of the instrument approximately 100 times larger than MOXIE could potentially create breathable oxygen for future astronauts who visit the Red Planet. If explorers can't make their own oxygen on Mars, supplies from Earth would take up valuable mass on a spacecraft. Furthermore, MOXIE's products could also be used as an ingredient for rocket fuel -- pretty crucial to ensuring the mission isn't one-way. A rocket would need 33 to 50 tons (30 to 45 metric tons) of liquid oxygen propellant in order to launch humans off Mars. "This is the first demonstration of actually using resources on the surface of another planetary body, and transforming them chemically into something that would be useful for a human mission," MOXIE deputy principal investigator Jeffrey Hoffman, a professor of the practice in MIT's Department of Aeronautics and Astronautics and a former NASA astronaut, said in a statement. "It's historic in that sense."

The research has been published in the journal Science Advances.