Latest news with #Earth-size
Yahoo
16 hours ago
- Science
- Yahoo
Hubble telescope uncovers rare star born from cosmic collision: 'A very different history from what we would have guessed'
When you buy through links on our articles, Future and its syndication partners may earn a commission. Astronomers using the Hubble Space Telescope have discovered that a seemingly ordinary white dwarf star is actually the result of a dramatic stellar merger. This result, detailed in a new study led by Snehalata Sahu and Boris Gaensicke of the University of Warwick in the U.K., suggests that other "normal-looking" white dwarfs scattered throughout the universe could also have violent pasts. "It's a discovery that underlines things may be different from what they appear to us at first glance," Gaensicke, study co-author and a professor of physics at the University of Warwick who serves as the principal investigator of the Hubble program, said in a statement. "Until now, this appeared as a normal white dwarf, but Hubble's ultraviolet vision revealed that it had a very different history from what we would have guessed." The star, named WD 0525+526, is located about 128 light-years from Earth. Though it appeared rather standard at first glance through visible light, further observations using the Hubble telescope revealed telltale signs of a more turbulent origin, the new study reports. White dwarfs are the dense remnants of stars like our sun that have exhausted their fuel supplies and collapsed into Earth-size objects. Despite their small size, however, they can pack in up to 1.4 times the mass of the sun. Most white dwarfs form from the predictable evolution of single stars nearing the final days of their life cycles, which is a path our own sun is expected to follow in about 5 billion years. However, WD 0525+526 may have followed a very different path. Instead of forming from one dying star, it appears to have emerged from the violent collision and merger of two stars. This dramatic past, the new study says, left subtle but detectable fingerprints in the white dwarf's atmospheric makeup. When Gaensicke and his team examined WD 0525+526 with Hubble's ultraviolet instruments, they detected an unusual amount of carbon in the star's atmosphere — a key sign the star was formed in a merger. Typically, white dwarfs have outer layers of hydrogen and helium that obscure their carbon-rich cores. But in mergers such as this one, the intense collision can strip away much of these outer layers, allowing carbon to rise to the surface. The signals of such stars are difficult to detect in visible light, but become clearer in ultraviolet wavelengths — and that's where Hubble excels. WD 0525+526 is remarkable even among the small number of white dwarfs known to be merger remnants, according to the statement. It has a surface temperature of nearly 21,000 Kelvin (about 37,000 degrees Fahrenheit) and a mass 1.2 times that of the sun, making it both hotter and more massive than others in this rare category, the study notes. Because WD 0525+526 appeared completely normal in visible light, astronomers now suspect that many more white dwarfs could be hiding similar explosive origins. "We would like to extend our research on this topic by exploring how common carbon white dwarfs are among similar white dwarfs, and how many stellar mergers are hiding among the normal white dwarf family," Antoine Bedrad, a researcher at the University of Warwick who co-led the study, said in the statement. RELATED STORIES: — White dwarfs: Facts about the dense stellar remnants — White dwarfs are 'heavy metal' zombie stars endlessly cannibalizing their dead planetary systems — What is dark energy? Exploding white dwarf stars may help us crack the case "That will be an important contribution to our understanding of white dwarf binaries, and the pathways to supernova explosions." This research is described in a paper published Aug. 6 in the journal Nature Astronomy.
Economic Times
09-08-2025
- Science
- Economic Times
Meet Chrysalis: The starship that could take 2,400 humans to Alpha Centauri, nearest star system in 400 years
Chrysalis spacecraft: A new spaceship design has won a prize. The spaceship is named Chrysalis. It is designed for a long journey to Alpha Centauri. The journey will take 400 years. The ship will carry 2,400 people. Generations will live and die on the ship. The ship will have homes, schools, and farms. It will be a self-sustaining society. Tired of too many ads? Remove Ads What Is Chrysalis and How Far Will It Travel? Training for Life in Space: Preparing the First Generation Tired of too many ads? Remove Ads What's Inside Chrysalis? FAQs Tired of too many ads? Remove Ads A spaceship capable of transporting 2,400 humans on a multigenerational, one-way trip to Alpha Centauri, the nearest star system to our own, got the first prize in the Project Hyperion Design Competition, as per a report. The theoretical vessel, named 'Chrysalis', would take approximately 400 years to cover its 25-trillion-mile journey, according to the engineers who designed it, as reported by no one living today would ever step foot on its terminus, the design conceives of a future in which generations would live and die upon a spaceship, a moving civilization in transit, as it would take 400 years to reach Alpha Centauri, according to the designers envisioned it not only as a vessel, but as a sustaining society, according to the report. The travelers would be pioneers of another sort, children born in space who had never known Earth, and will house several generations of people until it enters the star system, where it could shuttle them to the surface of the planet Proxima Centuri b, an Earth-size exoplanet that is thought to be potentially habitable, as reported by READ: Skipping iPhone 17 Pro? Here's every juicy rumor about the iPhone 18 Pro so far To train the people boarding the ship, the first generation would spend 70 to 80 years in seclusion in Antarctica as the environment would ensure psychological wellbeing, according to the vessel will potentially be 36 miles (58 kilometers) long, and Chrysalis will be designed as a gigantic Russian nesting doll, with encasing habitats that envelop a core, as per the Livescience report. These encasings would house all of the necessities of human existence: homes, schools, parks, farms, and even forests, where every segment would be powered by theoretical nuclear fusion generators, according to the the center of the ship are shuttles and all the communication equipment, the heart of this mobile world, as per the report. The layer closest to the core is expected to be used to produce food, everything from crops and fungi to animals and insects, keeping a delicately balanced ecosystem, as per the Livescience second level would accommodate communal living, with libraries, hospitals, and space for study and play, according to the report. The residential level follows, planned with ventilation and climate control for each home, as per the Livescience report. Beyond that are the areas for industry, recycling, and production, as per the report. The outer shell would contain the gear, raw materials, and machinery, probably maintained by robots, according the READ: Who is Patrick Joseph White, Georgia gunman who killed 2, and what was his motive? Chrysalis would only be sustainable for a population of about 1,500 individuals, and births would be planned accordingly, as per the project engineers said that, those responsible for the ship's governance would collaborate with artificial intelligence, "allowing for resilience of the whole social system, better knowledge transfer between the different generations of inhabitants and a deeper vision of the overall dynamics of the Chrysalis spaceship complex," as quoted in the Livescience the entire plan is purely hypothetical, as some of the required technology, like commercial nuclear fusion reactors, doesn't yet exist, but projects like this one can still add to the existing knowledge base and help engineers improve upcoming designs, as reported by prepare mentally for the isolation and challenges of space controlled environments with plants, fungi, insects, and livestock.
Yahoo
16-04-2025
- Science
- Yahoo
How artificial intelligence is helping scientists hunt for alien Earths
When you buy through links on our articles, Future and its syndication partners may earn a commission. A machine-learning algorithm trained on synthetic planetary systems has been let loose — and in the process has identified nearly four dozen real stars that have a high probability of hosting a rocky planet in their habitable zone. "The model identified 44 systems that are highly likely to harbor undetected Earth-like planets," said Jeanne Davoult, an astronomer at the German Aerospace Agency DLR, in a statement. "A further study confirmed the theoretical possibility for these systems to host an Earth-like planet." Often, "Earth-like" worlds — Earth-like in the sense that they have a similar mass to our planet and reside in their star's habitable zone — are found by chance, often in huge surveys that watch thousands of stars for transiting planets. However, astronomers would like to even the odds of finding Earth-size habitable-zone planets, and hence require a more targeted means of finding candidate stars. This is what led Davoult to develop the algorithm while she was at the University of Bern in Switzerland. Like all models based on machine-learning algorithms that learn to identify patterns and make predictions based on where the algorithm sees those patterns, it had to be trained on data. The problem, however, is that although nearly 6,000 exoplanets have been discovered so far, the information that we have on these worlds is patchy. And in general, even 6,000 worlds is not enough to train the algorithm. So, Davoult and her colleagues at the University of Bern, Romain Eltschinger and Yann Alibert, turned to another model that is able to simulate worlds based on everything we know about planetary systems. The Bern Model of Planet Formation and Evolution has been in continuous development at the University of Bern since 2003, and is constantly undergoing improvements as more data and theoretical models become available. "The Bern Model can be used to make statements about how planets were formed, how they evolved and which types of planets develop under certain conditions in a protoplanetary disk," Alibert said in the statement. "The Bern Model is one of the only models worldwide that offers such a wealth of interrelated physical processes and enables a study like the current one to be carried out." The Bern Model spat out 53,882 simulated planetary systems around three different types of stars: G-type stars like our sun, red dwarfs with about half the mass of the sun, and a second group of red dwarfs with just a fifth of a solar mass. The algorithm set about searching these simulated planetary systems for patterns or correlations, connecting the presence or absence of an Earth-size habitable-zone planet with various architectures of the planetary systems. Some correlations are more evident than others. For example, there's a correlation between the existence of an inner rocky planet co-inhabiting a system with an outer gas giant. This is the same architecture that our solar system has, with the rocky planets closer to the sun than the gas giants. On the flip-side, there's an anti-correlation between hot Jupiters, which are gas giants close to their sun, and "peas-in-a-pod" planets, which are strings of rocky planets of similar mass and orbital spacing that have been found around some red dwarf stars such as TRAPPIST-1 and Barnard's Star. Because a hot Jupiter is a gas giant that formed farther out from its star and then migrated inwards, knocking any planets in its path out of the way, we would not expect to find a hot Jupiter alongside such orderly rocky planets. But there are deeper correlations too, which were identified by Davoult in earlier research. In particular, the mass, radius and orbital period of the innermost detectable planet seems to be a big signpost as to whether a system hosts an Earth-size, temperate planet or not. For instance, Davoult found that around G-type stars like our sun, the existence of an Earth-sized habitable zone planet seems more probable if the radius of the innermost detectable planet is greater than 2.5 times the radius of Earth, or if it has an orbital period greater than 10 days. Armed with the knowledge of these correlations, the algorithm was successfully trained on the simulated data. "The results are impressive: the algorithm achieves precision values of up to 0.99, which means that 99% of the systems identified by the machine-learning model have at least one Earth-like planet," said Davoult. Confident in the algorithm's ability to recognize correlations, it was then applied to real observations, providing the 44 candidate planetary systems in which there is a high probability that an Earth-size planet exists in the habitable zone of its star. Astronomers can now follow up on these targets, rather than searching stars blindly. Related Stories: — How climate change could make Earth's space junk problem even worse — Large alien planets may be born in chaos, NASA's retired exoplanet-hunter finds — Nearby exoplanet could offer clues about atmospheres around hot, rocky alien worlds The algorithm will really prove its worth in the future. The European Space Agency's PLATO mission is expected to discover many thousands of transiting planets. By applying the algorithm to PLATO's discoveries, it should be able to narrow down the many thousands of systems to the few that have a higher chance of supporting an Earth-like planet, allowing astronomers to find them more quickly and efficiently. "This is a significant step in the search for planets with conditions favorable to life and, ultimately, for the search for life in the Universe," said Alibert. The findings are published in the April 2025 issue of the journal Astronomy & Astrophysics.
Yahoo
09-04-2025
- Science
- Yahoo
Nearby exoplanet could offer clues about atmospheres around hot, rocky alien worlds
When you buy through links on our articles, Future and its syndication partners may earn a commission. A nearby Earth-size planet beyond our solar system could soon join the ranks of worlds with confirmed atmospheres, according to new research. The exoplanet, L 98-59 c, is a hot, rocky world slightly larger than Earth that orbits a bright, young star about 35 light-years away from us. While the planet itself was discovered back in 2019, a new analysis of Hubble Space Telescope observations suggests it may be capable of hosting an atmosphere, adding to the diversity of known terrestrial worlds with clearly defined "air." If confirmed, the new findings would also make L 98-59 c the first planet of its size with a detected atmosphere, astronomers say, potentially setting new constraints on the atmospheres of worlds with this size and their ability to endure extreme environments created by the harsh conditions of young, flaring stars. "L 98-59 c could be the first planet smaller than 2 Earth radii with a definitively detected atmosphere," a team of astronomers led by Thomas Barclay, a scientist at NASA Goddard Space Flight Center in Maryland, stated in a new paper reporting the findings. Previous data gathered by NASA's exoplanet hunter TESS (short for Transiting Exoplanet Survey Satellite) suggest the exoplanet's host star, L 98-59, is more active than previously thought and showers significantly more energy on its system of four, potentially five, planets than the sun does on Earth. As such, "L 98-59 c provides an excellent opportunity to probe the atmospheres of planets smaller than 1.5 Earth radii that formed and evolved in the same stellar environment," the new study reports. In April of 2020, the researchers observed the world as it transited in front of its star with the goal of detecting faint spectral features that might reveal the presence of an atmosphere. Over the course of four Hubble orbits, the team found compelling evidence that the planet's transmission spectrum is not flat, which they suspect could be indicative of atmospheric components, such as clouds or hazes, that absorb or scatter light. The study notes that the detection is not yet totally confirmed, as the single transit of L 98-59 c, while promising, limits the conclusions that can be drawn. Determining the presence of the world's atmosphere in telescope data is no easy task, particularly due to the contamination of spectral signals from its host star, which can obscure the sought-after atmospheric signals from the planet. Related Stories: — This newly found super-Earth might have blown off its own atmosphere — NASA space telescope finds Earth-size exoplanet that's 'not a bad place' to hunt for life — Massive new NASA exoplanet catalog unveils 126 extreme and exotic worlds Forthcoming observations of the planet scheduled with Hubble — and potentially even the James Webb Space Telescope — could help determine whether the signals seen so far are due to stellar spectral contamination or are actually caused by a planetary atmosphere, the study reports. These findings are described in a paper published April 2 in the Astronomical Journal.
