New Interstellar Object Stuns Scientists as It Zooms through Solar System
Now, mere days after its discovery, frenzied follow-up work by astronomers around the world to further scrutinize A11pI3Z and look for additional apparitions in archival observations has given the object a new, more official name: Comet 3I/Atlas, for the telescope that first discovered it. What seems to have been the clinching evidence for its interstellar nature emerged from the efforts of a group of amateur astronomers, called the Deep Random Survey, who were first to track the object down in images other ATLAS telescopes had captured in late June.
'We had quite a bit of confusion from the get-go,' says Sam Deen, a member of the group. 'Our systems are usually tuned to expect that a new discovery is an object firmly stuck inside the solar system,' but Atlas was playing outside of those rules. The earlier observations—which soon also included 'pre-discovery' sightings from the Zwicky Transient Facility at Palomar Observatory in San Diego, California as well as other telescopes—allowed a more precise calculation of the object's trajectory. Whatever it was, the object was zooming down toward the inner solar system at almost 70 kilometers per second.
On supporting science journalism
If you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.
That's 'far faster than any solar system object should be able to move,' Deen notes, because such speeds ensure objects will slip through the sun's gravitational grasp. Anything moving so quickly simply can't hang around long; rather than following a typical parabolic orbit, 3I/Atlas's blistering speed is carving out a hyperbolic orbit, a path that takes the object swooping through the inner solar system before soaring back out into the interstellar void. It most likely came from the outskirts of some other planetary system, ejected from its tenuous twirling around some alien sun by gravitational interactions with a giant planet or another passing star. Exactly where it came from and when it began its galactic journey, however, no one can say.
There is no threat to Earth, as during its brief sojourn in the solar system 3I/Atlas is projected to come no nearer than about 240 million kilometers to our planet. The object will make its closest approach to the sun on October 30, reaching a distance of about 210 million kilometers, just within the orbit of Mars. As it approaches in coming months, astronomers will intensify their studies, hoping to learn more about this mysterious visitor.
What's already relatively clear, however, is 3I/Atlas's cometary nature; more than 100 observations have now trickled in from telescopes around the globe, including some that show hints the object is enveloped in a cloud of gas and dust and trailing a tail of debris as ices on its surface warm in the sun's radiance. Astronomers normally use a distant object's brightness as a proxy for its size, with brighter objects tending to be bigger as well. But a comet's ejected material is usually bright, too, interfering with such crude estimates.
Consequently, 'right now we really don't know how big it is; it could be anywhere from 5 to 50 kilometers in diameter,' Denneau says. Closer looks with more powerful observatories, including the keen-eyed infrared James Webb Space Telescope, should soon help clarify its dimensions and also its composition.
'I am interested in whether the comet looks like objects from our own solar system,' Denneau says. 'The answer is interesting either way. If it has the same composition as a normal comet, it means that other solar systems may be built similarly to ours. If it's completely different, then we might wonder why that is.'
The first interstellar object observed, 1I/' Oumuamua, appeared on the scene in 2017 and perplexed researchers with its oddly elongated shape and a bizarrely accelerating trajectory. Those strange features led some researchers to propose an idea— now convincingly debunked —that 'Oumuamua was a derelict alien spacecraft adrift in the Milky Way. Then in 2019 came the second observed interstellar object, 2I/Borisov, which bore all the hallmarks of a run-of-the-mill comet and thus inspired few if any outlandish claims of alien involvement.
'[ATLAS] will be a tiebreaker of sorts,' says Mario Juric, an astronomer at the University of Washington and discovery software lead at the recently completed Vera C. Rubin Observatory in Chile. '[Will it] give us a sense 'Oumuamua was the odd one out, or is the universe a lot more interesting than we imagined?'
Rubin— a unique telescope with a panoramic view that will survey the entire overhead sky every few days—is seen as especially critical for solving the lingering mysteries of these first emissaries from interstellar space. As the observatory's survey progresses in months and years to come, it should uncover many more visitors from the great beyond, allowing astronomers to begin studying them as a population rather than scattered, isolated one-offs.
Ultimately, if Rubin or another facility manages to spot an interstellar object fortuitously poised to pass relatively close to Earth, astronomers might even be able to gain an extremely close-up view via a spacecraft rendezvous. The European Space Agency (ESA) already has such a mission in the works, in fact—Comet Interceptor, a sentinel spacecraft set to launch as early as 2029 to await some inbound destination. 'There is a small chance that Comet Interceptor might be able to visit an interstellar object if one is found on the right trajectory, and the new Vera C. Rubin observatory should give us an increased rate of discovery of these objects,' says Colin Snodgrass, an astronomer at the University of Edinburgh who is part of the ESA mission.
All of which has astronomers on the edges of their seats, eager to dive deeper into a new frontier in our cosmic understanding. 'This is probably the most excited I've been about any astronomical discovery in years,' Deen says.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
an hour ago
- Yahoo
America Is Killing Its Chance to Find Alien Life
The Atlantic Daily, a newsletter that guides you through the biggest stories of the day, helps you discover new ideas, and recommends the best in culture. Sign up for it here. In April, scientists announced that they had used NASA's James Webb Space Telescope to find a potential signature of alien life in the glow of a distant planet. Other scientists were quick to challenge the details of the claim and offered more mundane explanations; most likely, these data do not reveal a new and distant biology. But the affair was still a watershed moment. It demonstrated that humans have finally built tools powerful enough to see across interstellar space and detect evidence of biospheres on distant worlds—in other words, tools truly capable of discovering alien life. Given the telescope technologies we astronomers have now and the ones we'll build soon, within a few decades, humans might finally gather some hard data that can answer its most profound, existential question: Is there life beyond Earth? What's arguably even more remarkable is that unless something changes very soon, the humans making that epochal discovery might not be NASA and the American space scientists who power it. The U.S. space agency is facing a funding and personnel crisis that the Planetary Society has called 'an extinction-level event.' The Trump administration's proposed 2026 budget—a version of which passed Congress and now awaits the president's signature—slashes NASA's funding by almost a quarter. That means, adjusted for inflation, NASA would get the same level of funding it had in 1961, before John F. Kennedy called for the United States to put a man on the moon. The modern version of NASA has far more on its plate: maintaining the International Space Station, hunting for Earth-killing asteroids, and using its Earth-observing satellites to help farmers monitor soil conditions. The president's budget also calls for an aggressive push to land humans on both the moon and Mars. It's hard to see how the agency can safely and accurately fulfill its current responsibilities—let alone develop advanced (and expensive) scientific equipment that would advance the search for alien life—with such reduced funding. ('President Trump's FY26 NASA Budget commits to strengthening America's leadership in space exploration while exercising fiscal responsibility,' a NASA spokesperson wrote in an email to The Atlantic. 'We remain fully committed to our long-term goals and continue to make progress toward the next frontier in space exploration, even as funding priorities are adjusted.' The White House did not respond to a request for comment.) Almost all of NASA's divisions face dramatic cuts, but the proposed nearly 50 percent slash to its Science Mission Directorate poses the greatest threat to hopes of future grand discoveries, including finding life on other worlds. SMD's engineers and scientists built the rovers that helped scientists show that Mars, now a freezing desert, was once warm and covered in rushing water. The researchers it funds developed probes that revealed vast subsurface oceans on some of Jupiter's moons. SMD is also where you'll find the folks who built the Hubble Space Telescope, the James Webb Space Telescope, and a flotilla of other instruments. These extraordinary machines have provided views of colliding galaxies 300 million light-years away, captured the death throes of stars like the Sun, and recorded portraits of interstellar clouds that birth new generations of stars and planets. In 2023, the scientists and engineers of the SMD were tasked with building the all-important Habitable Worlds Observatory, designed specifically to find alien life on planets light-years away. Slated to launch sometime in the 2040s, the HWO is planned to be about the same size as the JWST, with a similar orbit beyond the moon. Unlike the JWST, the HWO's sophisticated detectors must be able to tease out the light of an exoplanet against the billions-of-times-brighter glare of its host star, a signal as faint as the dim glow of a firefly flitting around a powerful field light at the San Francisco Giants' Oracle Park, but detected from all the way across the country in New York City. But now, many astronomers fear, NASA might never get the chance to build HWO—or carry out a slew of other missions that maintain the U.S.'s strong advantage in space science, as well as keep it ahead in the hunt for alien life. Under Donald Trump's plan, NASA would be forced to abandon 19 'active' missions. These include Juno—which is revolutionizing astronomers' understanding of Jupiter and could help them understand similarly monstrous worlds in other solar systems with other Earth-like planets—and New Horizons, a mission that took nearly 10 years to reach Pluto and is now flying into uncharted space at the edge of the solar system. The budget also decimates the future of space-science exploration. Scientists have been desperate to get back to Venus, for example, after a chemical compound associated with life was potentially detected high in its atmosphere in 2020; the two missions that would get us there are axed out of the administration's budget. The plan for the Nancy Roman Telescope, which would test key technologies necessary for the HWO, is so withered that many astronomers worry the telescope might never leave Earth. Worst, the development for the HWO takes an 80 percent cut in the president's proposed budget, going from $17 million in 2024 to just $3 million in 2026, before rebounding in 2028. The HWO represents one the most ambitious projects ever attempted, and the technological innovation needed to build it, or probes that might land on Jupiter's ocean moons, get measured across decades. In order for such missions to succeed, investments have to remain steady and focused—the opposite of what the Trump administration has proposed. Amid all the difficulties the country faces, the losses in space science might seem trivial. But American science, including space science, has paid enormous dividends in keeping the nation strong, prosperous, and worthy of the world's respect. If the original budget passes, one in every three of NASA's highly skilled workers will lose their job. The agency, in turn, will lose decades of hard-core technical experience: Not many people know how to blast a robot science rover from Earth, have it cross hundreds of millions of miles of deep space, and then land it—intact—on the surface of another planet. As the cuts take hold, plenty of NASA scientists might be forced to take jobs in other countries or early retirements they didn't want, or simply be let go. And the agency will be set back decades more into the future by choking off funding to young researchers at every level. Just as the U.S. is stumbling and falling back in its efforts to find alien life, astronomers around the world are preparing for the steep climb. The European Space Agency has a list of missions aimed at studying exoplanets. China has announced a 2028 launch date for Earth 2.0, a space telescope designed to find Earth-size exoplanets in the habitable zones of their stars. If it succeeds, that mission would put China on a path to building its own version of the Habitable Worlds Observatory. In my work as an astrophysicist, studying the possibilities of life on exoplanets, I travel around the world representing American science. In those travels, I consistently find people in other countries wearing two icons of American culture: the Yankee cap and the NASA logo. That a kid in Florence or a middle-aged guy in Bangkok would wear a NASA T-shirt is testimony to the power of its legacy. NASA—with its can-do spirit and its willingness to dream like no other organization in the history of the world—is America. If protected and nurtured, it would almost certainly lead the charge to answer that most existential question of life beyond Earth. But if this administration's shortsighted budget passes, it might be some other nation that discovers we are not alone in the universe. Article originally published at The Atlantic
Yahoo
an hour ago
- Yahoo
'We are proud to serve our country, both on Earth and in space': NASA astronauts beam home July 4 message from ISS (video)
When you buy through links on our articles, Future and its syndication partners may earn a commission. Three NASA astronauts living aboard the International Space Station (ISS) marked Independence Day with a few heartfelt words for their compatriots here on Earth. It was written by the American members of the station's current Expedition 73 mission, Nichole Ayers, Jonny Kim and Anne McClain. All three are members of the U.S military — Ayers is a lieutenant colonel in the Air Force, McClain is an Army colonel and Kim is a lieutenant commander in the Navy, as well as a former SEAL — so Independence Day has a special meaning for them. "This is a special holiday for me. It just reminds us of the freedom that we get to enjoy and that we have enjoyed for so many years," Ayers said in a 160-second video, which was recorded on June 16 but posted by NASA on Thursday (July 3). "Protecting that freedom is important to all of us here as military officers, but also NASA astronauts," she added. "And we are proud to serve our country, both on Earth and in space." "For me, the Fourth of July represents the responsibilities that we each have — to whom much is given, much is expected," McClain said. "Our forefathers gave us the rights of life, liberty and the pursuit of happiness, and every generation must protect that for future generations." Kim said the Fourth of July is a "deep day of reflection" for him, an occasion to remember American ideals and honor the sacrifices of those who have helped uphold them. "And to those following our mission, the spirit of exploration, just like the spirit of freedom and democracy, is what has made our country so great," he added. The trio spoke in front of a large American flag, which they had affixed to an ISS module wall. They also provided more patriotic flair toward the end of the video: All three did a celebratory backflip, revealing socks with a stars-and-stripes theme. Related Stories: — Holidays in space: an astronaut photo album — International Space Station: Everything you need to know about the orbital laboratory — The ups and downs of life in space | On the ISS this week June 23 - 27, 2025 Ayers, McClain and Kim aren't the only Americans currently living on the orbiting lab. It also houses record-setting former NASA astronaut Peggy Whitson, who's now the director of human spaceflight for the Houston-based company Axiom Space. Whitson is commanding Axiom's four-person Ax-4 mission, which arrived at the ISS on June 26 for a roughly two-week stay. Her three crewmates are pilot Shubhanshu Shukla of India; mission specialist Sławosz Uznański-Wiśniewski, a European Space Agency astronaut from Poland; and mission specialist Tibor Kapu, who hails from Hungary. There are four other people on station at the moment as well, all of them members of Expedition 73: cosmonauts Kirill Peskov, Sergey Ryzhikov and Alexey Zubritsky, as well as Takuya Onishi of JAXA (the Japan Aerospace Exploration Agency).
Yahoo
an hour ago
- Yahoo
Curiosity Cracked Open a Rock on Mars And Discovered a Huge Surprise
A rock on Mars spilled a surprising yellow treasure after Curiosity accidentally cracked through its unremarkable exterior. When the rover rolled its 899-kilogram (1,982-pound) body over the fragile lump of mineral in May last year the deposit broke open, revealing yellow crystals of elemental sulfur: brimstone. Although sulfates are fairly common on Mars, this represents the first time sulfur has been found on the red planet in its pure elemental form. Related: What's even more exciting is that the Gediz Vallis Channel, where Curiosity found the rock, is littered with objects that look suspiciously similar to the sulfur rock before it got fortuitously crushed – suggesting that, somehow, elemental sulfur may be abundant there in some places. "Finding a field of stones made of pure sulfur is like finding an oasis in the desert," said Curiosity project scientist Ashwin Vasavada of NASA's Jet Propulsion Laboratory in July 2024. "It shouldn't be there, so now we have to explain it. Discovering strange and unexpected things is what makes planetary exploration so exciting." Sulfates are salts that form when sulfur, usually in compound form, mixes with other minerals in water. When the water evaporates, the minerals mix and dry out, leaving the sulfates behind. These sulfate minerals can tell us a lot about Mars, such as its water history, and how it has weathered over time. Pure sulfur, on the other hand, only forms under a very narrow set of conditions, which are not known to have occurred in the region of Mars where Curiosity made its discovery. There are, to be fair, a lot of things we don't know about the geological history of Mars, but the discovery of scads of pure sulfur just hanging about on the Martian surface suggests that there's something pretty big that we're not aware of. Sulfur, it's important to understand, is an essential element for all life. It's usually taken up in the form of sulfates, and used to make two of the essential amino acids living organisms need to make proteins. Since we've known about sulfates on Mars for some time, the discovery doesn't tell us anything new in that area. We're yet to find any signs of life on Mars, anyway. But we do keep stumbling across the remains of bits and pieces that living organisms would find useful, including chemistry, water, and past habitable conditions. Stuck here on Earth, we're fairly limited in how we can access Mars. Curiosity's instruments were able to analyze and identify the sulfurous rocks in the Gediz Vallis Channel, but if it hadn't taken a route that rolled over and cracked one open, it could have been sometime until we found the sulfur. The next step will be to figure out exactly how, based on what we know about Mars, that sulfur may have come to be there. That's going to take a bit more work, possibly involving some detailed modeling of Mars's geological evolution. Meanwhile, Curiosity will continue to collect data on the same. The Gediz Vallis channel is an area rich in Martian history, an ancient waterway whose rocks now bear the imprint of the ancient river that once flowed over them, billions of years ago. Curiosity drilled a hole in one of the rocks, taking a powdered sample of its interior for chemical analysis, and is still trundling its way deeper along the channel, to see what other surprises might be waiting just around the next rock. An earlier version of this article was published in July 2024. First Visual Evidence Confirms A Star Exploded Twice Largest Mars Rock on Earth Could Sell For US$4 Million Here's How to Watch Mercury Photobomb Your 4th of July Fireworks
