Latest news with #Apai
NDTV
3 days ago
- Science
- NDTV
Are We Alone? Breakthrough Study Reveals New Way To Find Alien Life
A team of scientists, led by astrophysicist Daniel Apai from the University of Arizona, has developed a novel framework to assess the habitability of exoplanets-planets orbiting stars beyond our solar system. Traditionally, the search for extraterrestrial life has focused on the presence of water. However, Apai's team introduces a more comprehensive model that considers various factors, including temperature and metabolic viability, to determine if known or hypothetical organisms could survive on distant worlds. This new approach, detailed in their recent publication, emphasizes evaluating specific environmental conditions of exoplanets to assess their potential to support life. By moving beyond the simplistic criteria of water presence, the model aims to provide a more accurate assessment of a planet's habitability. According to The Metro, Apai's work is part of the broader "Alien Earths" project, funded by NASA's Astrobiology Program. This interdisciplinary initiative seeks to identify and characterize potentially habitable planets around nearby stars, guiding future missions in the search for life beyond Earth. He wrote in The Conversation. "Even on Earth, organisms require different conditions to survive - there are no camels in Antarctica. By talking about specific organisms, we made the question easier to answer." "Second, the quantitative habitability framework does not insist on black-or-white answers. It compares computer models to calculate a probabilistic answer. Instead of assuming that liquid water is a key limiting factor, we compare our understanding of the conditions an organism requires (the "organism model") with our understanding of the conditions present in the environment (the "habitat model")." Apai's team developed a model to assess habitability by evaluating an organism's needs beyond water. For example, camels require hot, dry climates, so the model correctly rates icy Antarctica as unsuitable. Testing the model on TRAPPIST-1e-like exoplanets, they assessed methanogens-ancient microbes-and found a 69% habitat suitability. This indicates such planets may support simple life forms and are strong candidates for further study.
Metro
4 days ago
- General
- Metro
Scientists have a new way that we can find out if aliens exist
'Are we alone in the universe?' is a question humanity has long asked. But a team of scientists has created a new way to answer whether aliens exist. Daniel Apai, an astrophysicist and astrobiologist at the University of Arizona, studies exoplanets – worlds that orbit other stars. Figuring out if exoplanets are habitable is tricky, as they're too far out of reach to properly research. Instead, stargazers and space officials narrow the list of habitable planets down by whether they have water. Apai and his colleagues developed a model that shows how Earth organisms would fare on alien worlds by considering factors beyond water, like temperature or a creature's metabolism. Not every planet is a blue marble like Earth: 'Hot Jupiters' are gas giants that orbit blisteringly close to their stars, 'super-Earths' are our planet's big older brothers and loner rogue planets drift through space. So rather than asking what all life needs, Apai instead asked: 'Would the conditions in the habitat – as we know them – allow a specific (known or yet unknown) species or ecosystem to survive?' He wrote in The Conversation. 'Even on Earth, organisms require different conditions to survive – there are no camels in Antarctica. By talking about specific organisms, we made the question easier to answer.' Take the camel, Apai said. Under his team's 'quantitative habitability framework', they first look at what conditions the animal needs to live beyond water, such as a hot, dry climate. Next, they look at the habitat, with Antarctica being an icy wasteland, it 'would correctly predict a near-zero probability that Antarctica is a good habitat for camels'. To test the model, published on arXiv, the researchers looked at if methanogens, one of the oldest forms of life, could make it on the exoplanet TRAPPIST-1e-like. The model said the 'habitat suitability' for these one-celled organisms would be 69%, making it a good candidate for astronomers to examine. Closer to home, the model said the suitability for methanogens just below the surface of Mars or the oceans of Jupiter's moon, Europa, is at most 55% and 50%, respectively. TRAPPIST-1e-like also has a habitat suitability of between 13% and 80% for cyanobacteria, commonly known as blue-green algae. More Trending Evidence of alien life in the universe right now is next to none, and with all the space in the universe, scientists only have so much time and resources to work out if a planet or moon could host extraterrestrials. Apai hopes the model will help scientists think outside the box when it comes to what life can look like and know where best to look for it. The researchers will make a massive database of critters that live in extreme environments, such as insects that live in the Himalayas or microorganisms that live in hydrothermal vents on the ocean floor. Apai said: 'If scientists do detect a potential signature of life, this approach can help assess if the environment where it is detected can actually support the type of life that leads to the signature detected.' Get in touch with our news team by emailing us at webnews@ For more stories like this, check our news page. MORE: Map shows where northern lights will be visible tonight in the US MORE: 70,000,000-year-old dinosaur could unlock key cancer discoveries MORE: Major health update on astronauts who were stranded in space for nine months
