Mystery object sends ‘pulsing' signal from inside our galaxy like nothing ever seen & scientists ‘can't rule out aliens'
A MYSTERY cosmic object inside our own galaxy has been detected sending out a pulsing signal that has baffled scientists.
The signal is so out of the ordinary that scientists cannot rule out the possibility that it is coming from an alien civilisation.
3
3
In a new study, published in the journal Acta Astronautica, Nasa scientist Richard Stanton said he discovered an unexpected "signal" coming from a sun-like star 100 light-years from Earth on 14 May, 2023.
Since then, Stanton has observed the pulse of light on three separate occasions.
The signal, from star HD 89389 within the constellation Ursa Major, consisted of two fast, identical pulses 4.4 seconds apart.
They had not been seen in previous searches, according to the study.
The pulses also had several unique characteristics that set them apart from anything scientists had previously observed.
This includes fluctuating light from the nearby star, which got "brighter-fainter-brighter" and made the star "partially disappear in a tenth of a second," according to Stanton.
The pulses and their individual glows were essentially identical too.
"In over 1500 hours of searching, no single pulse resembling these has ever been detected," he added.
"The fine structure in the star's light between the peaks of the first pulse repeats almost exactly in the second pulse 4.4s later. No one knows how to explain this behavior."
Stunning clip of Milky Way captured in record-breaking detail - scientists say it 'changes view of our galaxy forever'
And nothing was moving near the star that could have caused these beams.
Sometimes signals produced by airplanes, satellites, meteors, lightning, atmospheric scintillation, and system noise can appear as cosmic signals.
Although Stanton noted that common signals "are completely different from these pulses".
The pulses match similar beams of light from a different star observed four years ago, according to Stanton.
In 2019, a similar pair of pulses was detected around sun-like star HD 217014, some 50.6 light-years from Earth.
At the time, the signal was dismissed as a false positive caused by birds, according to Stanton.
However, a further analysis ruled out this possibility.
3
The unexplainable pulses could have several causes.
While unlikely, according to Stanton, the pulses could be refracting light caused by Earth's atmosphere, possibly due to a shock wave.
Other possibilities include starlight diffraction by a distant cosmic object in the solar system, or even partial eclipses caused by Earth satellites or distant asteroids.
Until we learn more, we can't even say whether or not extraterrestrials are involved.
Nasa scientist Richard Stanton
It could also be a gravity wave that generated these pulses, which requires more research.
"None of these explanations are really satisfying at this point," said Stanton.
"We don't know what kind of object could produce these pulses or how far away it is.
"We don't know if the two-pulse signal is produced by something passing between us and the star or if it is generated by something that modulates the star's light without moving across the field.
"Until we learn more, we can't even say whether or not extraterrestrials are involved!"
Over the years, Stanton has surveyed more than 1,300 sun-like stars for optical Search for Extraterrestrial Intelligence (SETI) signals from Big Bear, California.
The SETI project started out of the the Greenbank Observatory in West Bank, Virginia, more than 60 years ago.
Unlike traditional SETI surveys that have used radio antennas, Stanton looks for pulses of light that could result from laser communications or directed-energy arrays.
"My approach is to stare at a single star for roughly one hour using photon counting to sample the star's light at what is considered a very high time-resolution for astronomy (100 microsecond samples)," Stanton, a veteran of NASA's Jet Propulsion Laboratory (JPL), explained.
"The resulting time series are then searched for pulses and optical tones.
"The instrument uses readily available off-the-shelf components that can be assembled into a PC-based system. I'm not sure if anyone else is doing this with a significant time commitment.
"I am not aware of any discovery of similar pulses."
Stanton, who is now retired, had previously worked on the Voyager missions and served as the Engineering Manager of the Gravity Recovery And Climate Experiment (GRACE) mission.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Scottish Sun
11 hours ago
- Scottish Sun
Distant moon could have aliens on it – and experts just spotted a ‘mysterious motion' in its atmosphere
A DISTANT moon in our solar system might mirror Earth's seasons, according to scientists, who also believe it could be a candidate for finding nearby alien life. And scientists just spotted a mysterious motion in its atmosphere. Advertisement 6 Titan is the only moon in our solar system with a significant atmosphere, making it a top candidate for exploration Credit: NASA / ESA / IPGP / Labex UnivEarthS / University Paris Diderot illustration Titan, Saturn's largest moon, is home to sprawling rivers and lakes of liquid methane, icy boulders and dunes of grains that resemble coffee grounds. It even has an ocean hiding beneath its surface. Some 746million miles (1.2billion kilometers) away from Earth, the distant moon is thought to have rain clouds just like Earth. Unlike seasons on Earth, Titan has a much longer seasonal cycle, with each year on the moon lasting nearly three decades on our planet. Advertisement Despite its brutally cold temperatures, which average around -179C (-290F), this strange, alien world appears to have the organic ingredients for life. Titan is the only moon in our solar system with a significant atmosphere, making it a top candidate for exploration. Nasa's $3.35billion (£2.48billion) Dragonfly mission to Saturn's moon is set to explore the possibility of past or present water-based life, particularly in subsurface oceans and liquid reservoirs. The mission just passed its critical design review - meaning engineers can begin building the helicopter-like robot ahead of its scheduled launch in July 2028. Advertisement Dragonfly, which was officially selected as a viable mission in 2019, is expected to reach Titan sometime in 2034. 6 Nasa's $3.35billion (£2.48billion) Dragonfly mission to Saturn's moon is set to explore the possibility of past or present water-based life Credit: NASA/Johns Hopkins APL/Steve Gribben 6 Dragonfly, which was officially selected as a viable mission in 2019, is expected to reach Titan sometime in 2034 Credit: Johns Hopkins APL 'Strange' motion In late May, researchers found that Titan's hazy atmosphere wobbles like a gyroscope in line with its seasons, as opposed to spinning in line with its surface. Advertisement The "strange" motion was detected following analysis of archival infrared data gathered by Cassini probe. "The behavior of Titan's atmospheric tilt is very strange," Dr. Lucy Wright, a postdoctoral researcher at the University of Bristol, said at the time. "Titan's atmosphere appears to be acting like a gyroscope, stabilising itself in space. "We think some event in the past may have knocked the atmosphere off its spin axis, causing it to wobble. Advertisement "Even more intriguingly, we've found that the size of this tilt changes with Titan's seasons." 6 In late May, researchers found that Titan's hazy atmosphere wobbles like a gyroscope in line with its seasons, as opposed to spinning in line with its surface Credit: SWNS But understanding how the atmosphere wobbles with the seasons is crucial for calculating the landing trajectory of Dragonfly. The rotorcraft will be carried by Titan's fast-moving winds as it descends through the atmosphere. Advertisement Winds on Titan's upper atmosphere can be tempestuous, with speeds reaching up to 270mph (430kmph). Near the surface, however, the winds are much weaker. The tilt of the planet affects how Dragonfly's payload - a suite of scientific instruments designed to search for alien life - will be carried through the air. So research into the atmospheric motion can help engineers better predict where Dragonfly will touch down on the lunar surface. Advertisement 6 A 3D illustration of the hydrocarbon lakes on Titan Credit: Getty 6 Saturn's moon Titan could harbor life, but only a tiny amount, a new study found Credit: NASA/JPL-Caltech Food for thought There appears to be plenty of organic material on Titan to support alien lifeforms, according to a study published in The Planetary Science Journal last month. Its lakes and its subsurface ocean believed to be 300miles deep, is thought to be filled with cold, oily methane and ethane - which is organic material. Advertisement "There has been this sense that because Titan has such abundant organics, there is no shortage of food sources that could sustain life," Antonin Affholder, of the University of Arizona and lead author of the paper, said in a statement. The world exceeds even Earth's oil reserves. However, scientists remain skeptical, and while Titan could harbour life, it's likely only to be a small amount. "We point out that not all of these organic molecules may constitute food sources, the ocean is really big," added Affholder. Advertisement "And there's limited exchange between the ocean and the surface, where all those organics are, so we argue for a more nuanced approach." All you need to know about planets in our solar system Our solar system is made up of nine planets with Earth the third closest to the Sun. But each planet has its own quirks, so find out more about them all... How old is Earth? Plus other facts on our planet How many moons does Mercury have? What colour is Venus? How far away is Mars to Earth? And other facts on the red planet How big is Jupiter? How many moons does Saturn have? Does Uranus have rings? How many moons does Neptune have? How big is Pluto? How hot is the Sun?
The Sun
11 hours ago
- The Sun
Distant moon could have aliens on it – and experts just spotted a ‘mysterious motion' in its atmosphere
A DISTANT moon in our solar system might mirror Earth's seasons, according to scientists, who also believe it could be a candidate for finding nearby alien life. And scientists just spotted a mysterious motion in its atmosphere. 6 Titan, Saturn's largest moon, is home to sprawling rivers and lakes of liquid methane, icy boulders and dunes of grains that resemble coffee grounds. It even has an ocean hiding beneath its surface. Some 746million miles (1.2billion kilometers) away from Earth, the distant moon is thought to have rain clouds just like Earth. Unlike seasons on Earth, Titan has a much longer seasonal cycle, with each year on the moon lasting nearly three decades on our planet. Despite its brutally cold temperatures, which average around -179C (-290F), this strange, alien world appears to have the organic ingredients for life. Titan is the only moon in our solar system with a significant atmosphere, making it a top candidate for exploration. Nasa's $3.35billion (£2.48billion) Dragonfly mission to Saturn's moon is set to explore the possibility of past or present water-based life, particularly in subsurface oceans and liquid reservoirs. The mission just passed its critical design review - meaning engineers can begin building the helicopter-like robot ahead of its scheduled launch in July 2028. Dragonfly, which was officially selected as a viable mission in 2019, is expected to reach Titan sometime in 2034. 6 6 'Strange' motion In late May, researchers found that Titan's hazy atmosphere wobbles like a gyroscope in line with its seasons, as opposed to spinning in line with its surface. The "strange" motion was detected following analysis of archival infrared data gathered by Cassini probe. "The behavior of Titan's atmospheric tilt is very strange," Dr. Lucy Wright, a postdoctoral researcher at the University of Bristol, said at the time. "Titan's atmosphere appears to be acting like a gyroscope, stabilising itself in space. "We think some event in the past may have knocked the atmosphere off its spin axis, causing it to wobble. "Even more intriguingly, we've found that the size of this tilt changes with Titan's seasons." 6 But understanding how the atmosphere wobbles with the seasons is crucial for calculating the landing trajectory of Dragonfly. The rotorcraft will be carried by Titan's fast-moving winds as it descends through the atmosphere. Winds on Titan's upper atmosphere can be tempestuous, with speeds reaching up to 270mph (430kmph). Near the surface, however, the winds are much weaker. The tilt of the planet affects how Dragonfly's payload - a suite of scientific instruments designed to search for alien life - will be carried through the air. So research into the atmospheric motion can help engineers better predict where Dragonfly will touch down on the lunar surface. 6 6 Food for thought There appears to be plenty of organic material on Titan to support alien lifeforms, according to a study published in The Planetary Science Journal last month. Its lakes and its subsurface ocean believed to be 300miles deep, is thought to be filled with cold, oily methane and ethane - which is organic material. "There has been this sense that because Titan has such abundant organics, there is no shortage of food sources that could sustain life," Antonin Affholder, of the University of Arizona and lead author of the paper, said in a statement. The world exceeds even Earth's oil reserves. However, scientists remain skeptical, and while Titan could harbour life, it's likely only to be a small amount. "We point out that not all of these organic molecules may constitute food sources, the ocean is really big," added Affholder. "And there's limited exchange between the ocean and the surface, where all those organics are, so we argue for a more nuanced approach."
The Independent
12 hours ago
- The Independent
Mystery of the dark markings on Mars could finally be solved
Mysterious dark streaks on Mars, observed since the 1970s, are likely due to wind and dust activity rather than water, according to new research. Researchers used a machine learning algorithm to analyze 500,000 streaks from over 86,000 NASA Mars Reconnaissance Orbiter images, creating a global Martian map. The study found that recurring slope lineae (RSLs) are not associated with factors suggesting liquid or frost, but rather with above-average wind speed and dust deposition. Older slope streaks likely form when dust slides off slopes due to seismic activity, winds, or meteoroid impacts, appearing near recent impact craters. The findings cast doubt on the interpretation of slope streaks and RSLs as habitable environments, suggesting a dry origin of formation.
