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A new study published in Nature suggests that the interstellar comet 3I/Atlas, which streaked past the Sun in 2025, could be up to three times older than the Solar System itself, making it potentially the oldest object ever observed within our planetary neighborhood.Discovery and Unprecedented Brightness of 3I/AtlasThe comet is only the third known interstellar visitor after 1I/’Oumuamua (2017) and 2I/Borisov (2019). Spotted in July 2025, its exceptional brightness allowed astronomers to gather isotopic data that were impossible for the earlier objects. Early online speculation, including a claim by a Harvard researcher that the object could be an alien spacecraft, was dismissed by NASA and SETI.Isotopic Measurements Reveal a 12‑Billion‑Year AgeObservations with the James Webb Space Telescope and the ALMA observatory measured a deuterium abundance ten times higher than that of typical Solar‑System comets. The isotopic signature points to formation in an extremely cold environment of about -243°C (-405.4°F), and the authors estimate an age of up to 12 billion years, compared with the Solar System’s age of 4.5 billion years. Lead author Martin Cordiner of NASA’s Goddard Space Flight Center described the object as “maybe the oldest object to have been observed in our solar system”.Implications for Galactic Chemistry and Early Cosmic EpochsThe comet’s lack of chemical enrichment suggests it formed close to newborn stars, possibly during the “cosmic noon” era roughly 10 billion years ago when star formation peaked in the Milky Way. Its trajectory, untethered to any star, implies billions of years spent on “vast unimaginable trajectories” around the galaxy, offering a rare glimpse into the material that seeded early planetary systems.Future Prospects for Interstellar Object ResearchWith the upcoming Vera C. Rubin Observatory in Chile, astronomers expect to detect many more interstellar interlopers, turning this single discovery into the opening act of a new field. As Peter Veres of the International Astronomical Union notes, the comet is now exiting the Solar System and will not return, making timely follow‑up observations critical.

NASA announced that the Nancy Grace Roman Space Telescope will launch in September 2026, eight months ahead of schedule, promising to deliver roughly 20,000 terabytes of data over its mission. Combined with the daily 57 GB from the James Webb Space Telescope and the Vera C. Rubin Observatory’s nightly 20 TB, astronomers are turning to GPU‑accelerated AI to keep up.NASA’s Roman Telescope Launch Accelerates Data DelugeThe Roman telescope, slated for a September 2026 orbit insertion, is designed to conduct wide‑field infrared surveys that will generate an unprecedented volume of raw observations. Its data pipeline is expected to feed 20,000 terabytes to researchers over the mission’s lifespan, dwarfing the output of legacy assets.Data Volumes Surge: From Hubble to Rubin’s Nightly 20 TBHubble: 1–2 GB per dayJames Webb: 57 GB per dayRoman Telescope: 20,000 TB totalRubin Observatory: 20 TB per nightThis exponential growth forces a shift from manual analysis to high‑throughput computing.GPU Shortage Threatens Astronomical Research PaceBrant Robertson, a UC Santa Cruz astrophysicist, describes a “global GPU crunch” as more teams adopt deep‑learning pipelines. His NSF‑funded GPU cluster is already aging, and a proposed 50% cut to the National Science Foundation budget by the Trump administration threatens further capacity.Transformers and Generative AI: The Next Frontier for Space DataRobertson and graduate student Ryan Hausen are evolving their Morpheus model from convolutional networks to transformer architectures, aiming to scan several times more sky area per run. Parallel efforts on generative AI seek to de‑blur ground‑based images, compensating for atmospheric distortion and extending the scientific return of the Rubin Observatory.

At 19,000 miles above the lunar surface, the Artemis II astronauts heard the voice of Apollo‑13 commander Jim Lovell greeting them from beyond the grave, a message recorded shortly before his death at 97. Mission control transmitted the tribute on the morning of 6 April, when astronaut Reid Wiseman held a silk square bearing the original Apollo 8 patch—handed to him by Lovell’s son—before the crew’s launch. Launch director Charlie Blackwell‑Thompson secured a unanimous "go" from every console, a moment the author describes as a snapshot of humanity’s capacity to honor the past while reaching for the future. The ceremony stood in stark contrast to the Pentagon’s agenda. Two decades after a 2006 Iraqi kill‑board note reading “Let the bodies hit the floor,” the current defense chief pledged “death and destruction from the sky all day long” against Iran, a stance legal scholars warn could constitute a war crime. That rhetoric accompanies a proposed $1.5 trillion defense budget, including an additional $200 billion earmarked for operations against Iran—figures that dwarf NASA’s entire annual budget of $24.4 billion. Amid this fiscal disparity, crew members reflected on their place in history. Victor Glover, the first Black astronaut to travel deep space, described the view of Earth as an "oasis" in the void, while Christina Koch, the first woman to orbit the Moon, pressed her face to the window and formed a heart with her hands, calling the mission’s spirit "humility." Reid Wiseman watched the planet rotate beneath him, noting the sight of Africa, Europe, and the aurora‑lit north, saying it "paused all four of us in our tracks." Canadian astronaut Jeremy Hansen broke Jim Lovell’s 56‑year distance record and asked mission control to name a lunar feature after his late wife, Carroll. The crew agreed, designating a bright spot on the Moon as "Carroll," a tribute that will endure beyond any single lifetime. When Koch announced the spacecraft’s descent, she radioed, "We are now falling to the moon rather than rising away from Earth," a poetic reversal that underscored the mission’s symbolic return. The article recalls the author’s 2022 reflection on the James Webb Space Telescope, noting how humanity’s finest inventions now aim outward, seeking answers to our origins rather than turning inward toward conflict. Artemis II’s vessel, named Integrity, carried four breathing humans who, in a moment of collective grief, pressed their faces to the glass and imagined the faces of every loved one ever lived, captured in a single frame. Beyond the spacecraft, cultural threads wove through the mission: Hansen’s patch displayed the Seven Sacred Teachings of the Anishinaabe people, and the Chinese myth of Chang’e reminded viewers of the Moon’s timeless allure. As Carl Sagan famously wrote, "We are made of star‑stuff," the Artemis crew embodied that sentiment—not as passive observers, but as active participants in a fragile, hopeful narrative that rises above the relentless tally of bodies on Earth’s battlefields.

Brian Cox’s latest live show, ‘Emergence’, draws its spark from Johannes Kepler’s 1609 treatise ‘The Six‑Cornered Snowflake’. Cox explains that Kepler’s wonder at the symmetry of snowflakes, written during a Prague snowstorm, embodies the modern scientific quest to understand the origins of patterns we observe.He says the show explores three realms: what we know, what we don’t know, and what may remain unknowable. This framework sets the stage for his reflections on the biggest unanswered questions in science.If he could answer any scientific mystery, Cox would choose the existence of life beyond Earth. He points to current missions—two spacecraft heading to Jupiter’s moons and the James Webb Space Telescope probing exoplanet atmospheres—as promising avenues that might soon reveal a biosignature.When asked about the future of technology, Cox warns that the trajectory of artificial intelligence is still opaque, making it both thrilling and potentially hazardous. He adds that quantum computing is another frontier with wildly divergent timelines—some experts see breakthroughs within five years, others doubt they’ll arrive in a lifetime—highlighting the revolutionary yet unpredictable nature of these tools.Cox also reflects on his shifting stance toward social media. He admits moving from early optimism about its democratizing power to a more critical view of its noise and misinformation, while acknowledging its complex impact on politics and public discourse.On personal advice, Cox stresses the importance of following one’s passion: “Do what you most enjoy,” he says, recalling his own journey from a teenage musician to a celebrated astronomer, supported by parents who encouraged his interests.He shares a memorable fan encounter: at an ELO concert, a man introduced himself as Paul McCartney after asking a question about Saturn’s moon Enceladus—an encounter that left Cox “overwhelmed” as a lifelong Beatles fan.When asked about a pop‑culture stance, Cox admits he is largely out of touch, but notes that musical innovation seems to have plateaued since the 1980s, contrasting the rapid evolution of earlier decades.One of his favorite astronomical facts is the staggering number of observable galaxies: about two trillion. He highlights how, within a century, humanity moved from debating whether other galaxies existed to quantifying an immense cosmos, also measuring its age at roughly 13.8 billion years.Brian Cox will tour ‘Emergence’ across Australia from 5 to 30 May 2026.

The Artemis II crew has just returned from a ten‑day journey that looped around the Moon, marking only the second launch of the Artemis system and the first with humans aboard. NASA admits that the limited data from this mission makes risk assessment difficult.To date, the Artemis programme has consumed almost $100 billion (≈£75 billion). The U.S. Congress’s 2025 "one big beautiful bill" earmarked $9.9 billion for the upcoming Artemis IV and V flights, with even larger sums projected for a permanent lunar base.The scientific case for lunar exploration remains compelling: studying the Moon can illuminate the Solar System’s formation and provide a pristine platform for telescopes, especially on the far side where radio interference is minimal.However, the article questions whether human presence is essential. While astronauts still offer unique capabilities, the author suggests that within a decade robots—already proven on Mars by Curiosity and Perseverance—will outperform humans in cost, endurance, and operational flexibility.China’s lunar ambitions underscore the geopolitical stakes. After successful robotic orbiters and landers, Beijing retrieved the first far‑side soil samples in 2024 and plans a 2025 mission to the south pole with an orbiter, lander, and "mini‑hopper". By 2028, China aims to test equipment for a lunar base, potentially mirroring the U.S. push for crewed landings.Advances in AI, sensor technology, and autonomous navigation could soon enable robots to conduct near‑self‑directed scientific surveys and even construct infrastructure, diminishing the practical advantage of astronauts.Historical examples, such as the Hubble Space Telescope’s on‑orbit repairs, are revisited. The article cites Riccardo Giacconi’s view that, without the human element, multiple Hubble‑class telescopes could have been launched for the same budget, illustrating how crewed interventions may no longer be cost‑effective.The launch of the James Webb Space Telescope in 2021—operating far beyond the reach of routine astronaut servicing—demonstrates that complex, high‑value missions can succeed without crewed support, reinforcing the argument that human spaceflight now serves more as a prestige project than a scientific necessity.In conclusion, while the awe of viewing Earth from lunar orbit endures, the article contends that the future of space exploration will be defined by robots and private sponsorship, not by the costly and risky deployment of astronauts to the Moon or beyond.