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Na tem planetu so odkrili močan dokaz o atmosferi, ki je bila v času, ko je bila Zemlja pod zemljo.
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Na tem planetu so odkrili močan dokaz o atmosferi, ki je bila v času, ko je bila Zemlja pod zemljo.

Astronomi so odkrili prepričljive dokaze o atmosferi okoli kamnitih eksoplanet LHS 1140b, kar je pomemben korak v iskanju zunajzemeljskega življenja. Planet kroži okoli hladne zvezde razreda M približno 50 svetlobnih let stran od Zemlje. Z uporabo spektralnih podatkov, zbranih leta 2024 iz observatorija Las Campanas v Čilu, so raziskovalci opazili znake atomov helija v razburjenem stanju energije, kar kaže na atmosferski odliv. To odkritje bi lahko uvrstilo LHS 1140b v novo kategorijo "helijskih svetov", ki so teoretizirani, vendar prej nepotrjeni. Čeprav so ugotovitve vznemirljive, znanstveniki opozarjajo, da LHS 1140b ne obravnavajo kot potencialno "novo Zemljo". Nadaljnje raziskave, ki uporabljajo podatke iz vesoljskega teleskopa Jamesa Webba, so potrebne za popolno razumevanje atmosferske sestave in nastanljivosti planeta.

Astronomers have made a groundbreaking discovery after years of research, identifying compelling evidence of an atmosphere around the rocky exoplanet LHS 1140b. This finding positions the planet as one of the most promising candidates in the search for potential extraterrestrial life. The study, published in Science, was conducted by researchers from Harvard University, including astronomer Collin Cherubim, who observed the planet from the Las Campanas Observatory in Chile during 2024. Their findings suggest the presence of helium atoms in an excited energy state, which could indicate atmospheric activity. LHS 1140b orbits a cool star of class M, located approximately 50 light-years away from Earth. The team’s observations revealed spectral traces consistent with helium emissions, leading them to conclude that the signal likely originates from helium escaping the planet's atmosphere. After ruling out other possible explanations, the scientists confirmed their hypothesis. The results were shared with New Scientist and represent a major step forward in understanding the composition of distant worlds. This discovery marks a shift in the classification of rocky exoplanets. If verified, LHS 1140b would join a rare category known as “helium worlds”, planets theorized to possess dense atmospheres rich in helium, potentially surrounded by rocky or icy surfaces. Such planets might resemble gas giants more than terrestrial ones, offering unique conditions that differ from those found in our solar system. According to Natalie Allen, a planetary scientist at Johns Hopkins University, this type of world challenges existing assumptions about planetary formation and habitability. Astrobiologist Sukrit Ranjan of the University of Arizona emphasized that while the find is exciting, it does not equate to a second Earth. He noted that LHS 1140b should be viewed as an intriguing target rather than a direct analog to our home planet. The planet’s surface conditions remain uncertain, depending largely on the thickness of its atmosphere. Some speculate that pressure levels could resemble those found in deep oceans or under vast ice sheets, making it more akin to frozen moons than familiar terrestrial environments. Despite these possibilities, much remains unknown. Scientists have yet to confirm the exact composition or total thickness of LHS 1140b’s atmosphere. As such, questions about whether the planet could support life remain unanswered. Natalie Allen stressed that understanding the full atmospheric profile is crucial for assessing habitability. She pointed out that data from the James Webb Space Telescope, though not yet released, may provide further insights into the planet’s environment. In late 2025, new observations failed to detect helium signals, raising concerns about the reliability of earlier findings. Independent analysis confirmed that the initial signal was recorded exclusively in 2024 measurements. Collin Cherubim explained that measuring helium escape over time often yields inconsistent results, sometimes even disappearing entirely. These inconsistencies highlight the need for continued observation and deeper understanding of atmospheric dynamics on distant worlds. Cherubim plans to continue monitoring LHS 1140b to determine what causes variations in the detected signal. His work underscores the complexity of studying exoplanets and the importance of long-term observational campaigns. While the current findings offer tantalizing clues, they also reveal the challenges inherent in interpreting data from faraway celestial bodies. For now, LHS 1140b remains a fascinating subject, offering a glimpse into the mysteries of alien worlds.

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N1 Hrvatska logoN1 HrvatskaNeodvisenSredinaDejstva 93Objektivnost 87včeraj
Na tem planetu so odkrili močan dokaz o atmosferi, ki je bila v času, ko je bila Zemlja pod zemljo.

Astronomi so odkrili prepričljive dokaze o atmosferi okoli kamnitih eksoplanet LHS 1140b, kar je pomemben korak v iskanju zunajzemeljskega življenja. Planet kroži okoli hladne zvezde razreda M približno 50 svetlobnih let stran od Zemlje. Z uporabo spektralnih podatkov, zbranih leta 2024 iz observatorija Las Campanas v Čilu, so raziskovalci opazili znake atomov helija v razburjenem stanju energije, kar kaže na atmosferski odliv. To odkritje bi lahko uvrstilo LHS 1140b v novo kategorijo "helijskih svetov", ki so teoretizirani, vendar prej nepotrjeni. Čeprav so ugotovitve vznemirljive, znanstveniki opozarjajo, da LHS 1140b ne obravnavajo kot potencialno "novo Zemljo". Nadaljnje raziskave, ki uporabljajo podatke iz vesoljskega teleskopa Jamesa Webba, so potrebne za popolno razumevanje atmosferske sestave in nastanljivosti planeta.

Ocena pristranskosti (Sredina): Članek obravnava znanstvena odkritja v zvezi z eksoplaneti in ne vključuje političnih osebnosti, politik ali spornih vprašanj.

Zakaj dejstva (93): The article accurately reports the discovery of atmospheric signatures on LHS 1140b, citing the detection of excited helium atoms and the research by Collin Cherubim and his team. It mentions the location of the observation (Las Campanas Observatory), the distance to the star (50 light years), and t

Zakaj objektivnost (87): The article presents the findings in a generally neutral tone, focusing on the scientific process and implications. However, it uses phrases like 'korak bliže vanzemaljcima' ('a step closer to aliens') which introduces a slight emotional undertone. Overall, it remains mostly objective while emphasiz

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