Starlink Satellites Are 'Leaking' Radio Emissions
Light pollution stretches far beyond the hazy glow of a city on the horizon. Down in the radio portion of the electromagnetic spectrum, governments barter sections of light. Large portions of bandwidth stay reserved for the military, while others get auctioned off (sometimes literally) to communications companies. Squeezed in between these chunks of spectrum lie bands for public broadcasting, HAM radio, and science.
Governments, corporations, and private citizens are supposed to stay away from protected bands so that radio telescopes can observe in peace. When the Starlink satellites launched, SpaceX collaborated with key radio astronomy observatories to avoid broadcasting while transiting above telescopes. Strategies include turning off Starlink WiFi services completely in certain regions of the sky.
The resulting disruptions to Starlink operations are not insignificant. Spectrum management, especially in the United States, involves give-and-take on both sides. But American observatories have the benefit of observing at mid- to high-frequencies, at least by radio standards. Those frequency bands are less polluted than low frequencies, because emitting at low frequencies takes less energy and so costs less.
If corporations and the military ignored protected bands, it would cause serious problems for radio astronomy. But a new study by engineers at the SKA suggests unintended electromagnetic radiation, or UEMR, may be a bigger issue than intended radiation.
The SKA is still under construction. When completed, it will be the most powerful radio telescope in the world. The low-frequency part of the telescope (SKA-Low) is designed to go after trace echoes from when matter began to coalesce 13 billion years ago. SKA-Low looks odd even by the standards of radio telescopes. A thick forest of metallic Christmas trees in the Australian desert maximizes sensitivity to faint signals.
But the new era of radio telescopes is butting up against a new era of satellites. There are more satellites in orbit than ever before, including massive networks of related satellites called constellations. With 7,000 satellites in Low Earth Orbit, Starlink is the biggest constellation.
As they transit above SKA-Low, Starlink satellites release radio emissions through multiple protected bands. In a pre-print of their study, the SKA-Low team reports 112,534 intrusions of Starlink satellites in their radio images. Their month-long study showed that 30% of all Starlink satellites in the sky at the time appear in their data.
Most of this emission seems to be accidental. UEMR from Starlink interfering with radio astronomy isn't unprecedented. During the initial launch phase, radio astronomers found that the propulsion system on the satellites emitted at unexpectedly low frequencies, decreasing the quality of astronomical data in an already polluted band. But the satellites had all been launched at the time of this new study. So where is all this radio pollution coming from?
We don't know the various origins of the UEMR the SKA-Low team observed, except for one feature at 99.7 MHz. If that sounds like an FM radio band, it's no coincidence. Starlink satellites bounce FM radio shows back down to the Earth. For telescopes carefully located in radio-quiet zones, that's not ideal.
Fixing this issue is particularly crucial to the success of SKA-Low, which seeks to look further back in time than any telescopes in a similar radio band. Signals from the early universe are very faint, and Starlink satellites are not.
Unfortunately, the codes governing spectrum use only ban intended radio emission in protected bands. Consider a hyperbolic analogy: Imagine if murder were illegal, but manslaughter wasn't. Spectrum experts and regulators are currently discussing how to address this issue. For now, though, as long as Starlink is here, so are the unintended radio emissions.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
10 hours ago
- Yahoo
Why do sharks freeze when flipped upside down?
When you buy through links on our articles, Future and its syndication partners may earn a commission. Sharks can be formidable predators, but when they're flipped upside down, many species enter a trance-like state, known as tonic immobility, and are as helpless as a beetle on its back. Tonic immobility is "as close to hypnotising a shark as you can get!" Joel Gayford, a doctoral candidate of marine ecology at James Cook University in Australia, told Live Science in an email. "The animal completely stops swimming, and the only movement it's making is slow rhythmic breathing." But what happens when a shark enters this state? And why do sharks freeze when turned belly-up? During tonic immobility, a shark experiences a decrease in sensory responsiveness, cardiac rate and blood pressure, as well as analgesia, meaning a decrease in its sensitivity to pain, Abraham Miranda-Páez, a researcher at the Mexican nonprofit Pelagios Kakunjá that aims to conserve sharks and manta rays, told Live Science in an email. Sign up for our newsletter Sign up for our weekly Life's Little Mysteries newsletter to get the latest mysteries before they appear online. For the shark species that go into tonic immobility — including great white sharks (Carcharodon carcharias), lemon sharks (Negaprion brevirostris) and gray nurse sharks (also known as a sand tiger shark, or Carcharias taurus) — this freeze response "can be induced when the shark is flipped over or by stimulating the snout (home to lots of electroreceptors called the ampullae of Lorenzini), Jillian Morris, founder of Sharks4Kids, a Florida-based nonprofit, told Live Science in an email. By putting sharks into this snoozing state, scientists can conduct research safely while reducing stress for the animal. "We can make a small incision and insert an acoustic tag safely and humanely, without the need for special equipment," Morris said. "It's always done very quickly, and then the shark is flipped back over." Related: Can turtles really breathe through their butts? How tonic immobility helps sharks survive But sharks didn't evolve this trait to help scientists take samples, so what's going on? There are a few leading theories. According to a 2023 study in the journal Environmental Biology of Fishes, tonic immobility could be for self-defense, courtship or protection from sensory overload. "The consensus among the scientific community is that tonic immobility is a passive defensive response," said Miranda-Páez, co-author of the study. In other species, playing dead can be helpful. Dice snakes and fire ants pretend they've popped their clogs when predators attack, while female dragonflies and European common frogs fake their own death to avoid sex. But not everyone is convinced that paralysis would be effective protection for sharks. "This explanation doesn't work very well for sharks," Gayford said. "Most shark predators would not be deterred by a motionless target." In some instances, it's a clear disadvantage — orcas have worked out that they can incapacitate sharks to overpower them and gobble down their nutrient-rich livers. Sharks go into this state during sex, said Morris, who has observed nurse sharks mating. "The male flips the female over, and she enters tonic immobility before copulation." However, males are affected too, "so mating does not fully explain why this phenomenon occurs," she added. A 2025 study in the journal Reviews in Fish Biology and Fisheries suggests that tonic immobility has no purpose and is just an evolutionary hangover. "We actually found that tonic immobility has been lost independently several times throughout the evolutionary history of sharks and rays," said Gayford, a co-author of the study. RELATED MYSTERIES —Which animals can hold their breath underwater the longest? —What is the oldest shark? —What's the biggest freshwater fish in the world? Many of the species that don't have this response probably lost it for a reason, Gayford said. Typically, small coral-dwelling sharks spend lots of time looking for food in tight spots, where they could get stuck. "If these species were to go into tonic in this situation, it could have deadly consequences," Gayford said. For now, scientists don't have enough data to conclusively say what purpose tonic immobility serves. "There are many theories, none of which are fully understood or thoroughly supported," Morris said. Shark quiz: How much do you know about these iconic ocean superstars?
Yahoo
14 hours ago
- Yahoo
SpaceX sends 24 Starlink satellites to polar orbit in late night launch
July 19 (UPI) -- SpaceX launched 24 more Starlink satellites late Friday from California into low-Earth orbit. The Falcon 9 lifted off at 8:52 p.m. PDT from Vandenberg Space Force Base's pad 4 East. Watch Falcon 9 launch 24 @Starlink satellites to orbit from California SpaceX (@SpaceX) July 19, 2025 About eight minutes later, Falcon 9's first-stage booster successfully landed on "Of Course I Still Love You" stationed in the Pacific Ocean. It was the booster's 14th mission, and 141st on this vessel and 477th of all droneships. SpaceX has launched 88 Falcon 9 rockets this year and 516th overall in California and Florida. The satellites were deployed into a polar orbit about one hour later. Falcon 9 launches 24 @Starlink satellites from California SpaceX (@SpaceX) July 19, 2025 The Starlink network includes 7,965 active units launched since 2019, reported. The satellites provide broadband internet access and direct-to-cell service. The next SpaceX flight from Florida is scheduled for 5:12 p.m. EDT Monday at Cape Canaveral Space Force Station's Complex 40. A Falcon 9 will launch the fifth pair of 03b mPower satellites to medium Earth orbit for Luxembourg-based SES.
Yahoo
14 hours ago
- Yahoo
New study reveals single dietary factor that increases risk for heart disease: 'Our findings strengthen the importance'
New study reveals single dietary factor that increases risk for heart disease: 'Our findings strengthen the importance' An international study found that diets low in fiber may contribute to a higher risk of heart attacks, offering another reason to eat more plants. Researchers analyzed heart scans from nearly 1,400 people across Europe and Australia and discovered a clear link between low fiber intake and the buildup of dangerous plaques in the arteries. These plaques were more likely to rupture and lead to serious cardiac events. The study was published in the journal Cardiovascular Research and focused on people with existing coronary artery disease. "Our findings strengthen the importance of cardioprotective dietary recommendations," the researchers noted in the study's conclusion. The benefits of fiber were consistent even among those already taking heart medications or cholesterol-lowering drugs. While fiber has long been associated with improved digestion, reduced inflammation, and better blood sugar control, this study is among the first to directly connect fiber intake to the makeup of arterial plaques. Specifically, people who ate less fiber were more likely to have lipid-rich plaques, which are softer and more prone to rupture than fibrous or calcified plaques. That rupture risk can trigger heart attacks, even in people already on medication, making fiber an important yet often overlooked part of long-term heart care. A 2025 report from the American College of Cardiology linked plant-based eating patterns to a reduced risk of heart disease and stroke, indicating that other researchers have come to similar conclusions. And a long-term study from the Harvard T.H. Chan School of Public Health found that replacing red meat with legumes, nuts, or whole grains significantly lowered the risk of heart-related death, especially in younger adults. There are several health benefits. Fiber-rich diets are tied to reduced inflammation, improved cholesterol control, and more stable blood sugar, all of which can help prevent artery damage over time. Heart-healthy eating patterns such as the Mediterranean and DASH diets emphasize whole grains, vegetables, and legumes not only for weight control but also because they support long-term cardiovascular health. These findings align with other recent research that shows how dietary changes, even small ones, can lower the risk of chronic illness. Why do you eat plant-based foods? The health benefits It's cheaper It's good for the planet I prefer the taste Click your choice to see results and speak your mind. Join our free newsletter for easy tips to save more and waste less, and don't miss this cool list of easy ways to help yourself while helping the planet. Solve the daily Crossword
