Сансар огторгуйгаас ирсэн уг биетийг радио долгионы нарийвчилсан шинжилгээгээр судалсны эцэст байгалийн гаралтай объект болохыг тогтоов.
Од хоорондын орон зайгаас манай нарны аймагт нэвтэрсэн ховор үзэгдэл болох 3I/Atlas сүүлт од эрдэмтдийн анхаарлыг ихэд татсан юм. Судлаачид уг биетийг хиймэл буюу харь гаригийн технологийн бүтээл байж болзошгүй гэх таамгийг шалгахын тулд SETI Institute-ийн радио дуран авайг ашиглан долоон цаг гаруй хугацаанд ажиглалт хийжээ. Ажиглалтын явцад 74 сая орчим радио дохио бүртгэгдсэн ч нарийвчилсан шүүлтүүр болон шинжилгээний дараа эдгээр нь бүгд Дэлхий дээрх технологи эсвэл хиймэл дагуулаас үүдэлтэй хөндлөнгийн нөлөө болох нь батлагдсан байна.
Эрдэмтдийн баг 3I/Atlas-аас ямар нэгэн хиймэл дохио илрээгүй болохыг “Astronomical Journal” сэтгүүлд нийтэлжээ. Хэдийгээр харь гаригийн ул мөр олдсонгүй ч энэхүү судалгаа нь орчин үеийн технологийн тусламжтайгаар од хоорондын биетүүдийг системтэйгээр шинжлэх чадамжтай болсныг нотолсон чухал ач холбогдолтой ажил боллоо. Фурманы их сургуулийн судлаач Валериа Гарсиа Лопез энэхүү аргачлал нь ирээдүйд илрэх содон биетүүдийг судлах суурь болж байгааг онцолжээ.
Судлаачид 3I/Atlas-ыг 440 метрээс 5.6 километр хүртэлх хэмжээтэй, 11 тэрбум хүртэлх жилийн настай байж болзошгүй хэмээн тооцоолсон байна. Тэд хүний гараар бүтээгдсэн “Voyager” сансрын хөлгүүд ирээдүйд өөр одны системд ижил төстэй “од хоорондын биет” болон очихыг сануулаад, ийм төрлийн судалгаа нь шинжлэх ухааны үндэслэлтэй гэдгийг тэмдэглэжээ. Одоогоор 3I/Atlas нь Дэлхийгээс 1.3 тэрбум километрийн зайд, од хоорондын орон зай руу буцан одсон бөгөөд дахин манай системд эргэж ирэх магадлал тун бага юм.
Дэлгэрэнгүйг эх сурвалжаас харах
↓Эх сурвалжийг нээх ↓
A rare visitor from another star system has undergone one of the most extensive technosignature searches ever conducted on an interstellar object, and the results are now in. According to research published in the Astronomical Journal, radio observations of the interstellar comet 3I/Atlas detected no evidence of extraterrestrial technology, helping settle speculation that emerged shortly after the object’s discovery while also demonstrating the growing power of modern SETI investigations.
Why 3I/Atlas Captured Global Attention
The discovery of 3I/Atlas immediately attracted interest across the astronomical community because interstellar objects remain extraordinarily rare. The comet became only the third known object confirmed to have entered the solar system from another star. Its arrival offered scientists a fleeting opportunity to study material that formed around a completely different stellar environment, potentially billions of years before our own solar system existed.
As the comet traveled through the inner solar system, some observers speculated that it might represent more than a natural celestial body. Although those claims lacked supporting evidence, they generated public curiosity and encouraged researchers to perform a rigorous examination of the object. The possibility of detecting artificial signals from an interstellar visitor, even if highly unlikely, was significant enough to justify detailed observations.
The object passed within roughly 19 million miles of Mars during its journey through the solar system. While it never approached Earth closely, its passage provided astronomers with a valuable observational window. Multiple spacecraft and ground-based observatories monitored the comet as it continued its trajectory back toward interstellar space. Scientists estimate that the object could be between 440 meters and 5.6 kilometers in size and potentially as old as 11 billion years, making it far older than the Sun itself.
SETI Analyzed Millions of Signals Looking for Technosignatures
The search effort was led by the SETI Institute using its radio observatory facilities in Northern California. Researchers devoted more than seven hours of observations to the object shortly after its discovery, scanning across a broad range of radio frequencies that could potentially reveal artificial transmissions.
The investigation produced a massive dataset. Scientists identified nearly 74 million narrow-band radio signals during the search. Such signals are often considered particularly interesting because artificial technologies can generate them more readily than most natural astrophysical processes. The challenge lies in separating genuine candidates from the overwhelming amount of human-generated radio interference constantly present around Earth.
Credit: Astronomical Journal
Researchers applied multiple filtering techniques designed to eliminate signals associated with terrestrial technology. They examined signal characteristics, motion patterns, and frequency behavior while comparing the detections against known sources of interference. After the extensive filtering process, only slightly more than 200 signals remained worthy of additional scrutiny.
The final assessment revealed that every one of those remaining signals originated from either technology operating on Earth or satellites orbiting the planet. No evidence suggested that any transmission came from 3I/Atlas itself. The findings were published in the Astronomical Journal, providing one of the most comprehensive technosignature investigations ever conducted on an interstellar object.
What The Results Reveal About The Search For Alien Technology
While the absence of alien signals may sound disappointing, researchers emphasize that the study represents an important milestone for the field of technosignature science. The work demonstrates that astronomers now possess the capability to systematically evaluate unusual objects and rapidly search for potential indicators of intelligent activity.
These results also provide a real-world test of modern detection methods. By processing tens of millions of signals and narrowing them down to a small number of candidates, researchers were able to validate procedures that may eventually be used on future interstellar visitors or more distant targets.
“These results ‘show how realistic it is to detect a signal with the technology we have today,’ co-author Valeria Garcia Lopez of Furman University said a statement. ‘That is why it is important to keep searching for technosignatures, even from objects we might not expect to have signals.’”
The statement highlights a central principle within SETI research. Scientists do not expect every unusual object to harbor evidence of technology. Yet each search strengthens analytical tools, improves filtering methods, and increases confidence that a truly unusual signal could be identified if one were ever detected.
are shown in blue, blanking ranges are shown with yellow shading behind the histogram, the hits after blanking within the frequency ranges are shown in brown, and the hits after limiting the drift-rate range are shown in gold. Applying blanking ranges and drift-rate limits significantly reduced dense clusters of hits (reducing the total number of hits by 97.4%) which improved our ability to process the data and detect putative signals associated with 3I/ATLAS.
Credit: Astronomical Journal
An Intriguing Connection To Humanity’s Own Spacecraft
One of the most fascinating aspects of the study involves a comparison between interstellar objects and humanity’s own efforts to explore deep space. Researchers pointed out that Earth has already created technological artifacts that are heading toward the stars.
The twin Voyager spacecraft, launched during the 1970s, are currently the most distant human-made objects ever sent into space. Having crossed beyond the heliosphere, they continue their journeys through the interstellar medium. Given enough time, they will eventually pass through other stellar neighborhoods, becoming interstellar objects from the perspective of distant civilizations.
The research team used this fact to illustrate why searches for technological interstellar objects are scientifically reasonable. Humanity itself has already demonstrated that technological artifacts can travel between star systems.
“Voyager and similar probes will eventually become interstellar objects in other stellar systems. We thus know that no extrapolation is needed for the idea of interstellar technological objects, as we have a proof by existence,” they wrote.
This perspective transforms the discussion from pure speculation into a question grounded in observable reality. If humanity can send technology into interstellar space, other civilizations—if they exist—could potentially do the same.
An Ancient Visitor Continues Its Journey Into The Darkness
Today, 3I/Atlas is moving away from the solar system and is unlikely to ever return. The comet is now roughly 1.3 billion kilometers from Earth as it continues its path back into interstellar space. Although it did not reveal evidence of extraterrestrial technology, it provided scientists with an unprecedented opportunity to test the methods that could one day uncover such evidence elsewhere.
Its extraordinary age, possible origins around another star, and brief passage through our cosmic neighborhood have already secured its place in astronomical history. The SETI investigation adds another layer to that legacy, showing how modern astronomy can rigorously examine even the most unusual possibilities while remaining firmly guided by evidence.
For now, 3I/Atlas appears to be exactly what scientists first identified: a natural interstellar comet. Yet the techniques refined during this search may prove invaluable when the next visitor from the depths of the galaxy arrives.
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