New technique promises clearer, more frequent views of black holes

When you buy through links on our articles, Future and its syndication partners may earn a commission.
A powerful new technique is poised to revolutionize how astronomers observe black holes, by producing sharp, multicolored images that could reveal their dynamic evolution in real time.
By compensating for Earth's turbulent atmosphere, the technique — called frequency phase transfer (FPT) — enables scientists using the global Event Horizon Telescope (EHT) array to see finer details and fainter features of cosmic objects (like black holes) than ever before. This method also improves the frequency of observations by expanding the EHT's limited observation window, allowing scientists to potentially create time-lapse "movies" of black hole activity.
An international team of researchers have put this new technique to the test using three of the 12 telescopes belonging to the EHT array, including the IRAM 30-meter telescope atop Pico Veleta in Spain and the James Clerk Maxwell Telescope and Submillimeter Array observatories in Hawai'i, according to a statement from the Center for Astrophysics at Harvard & Smithsonian (CfA).
The challenge of observing the cosmos with ground-based telescopes begins with Earth's atmosphere, which distorts radio waves coming from space, according to Sara Issaoun, lead author of the new study and an astronomer with the CfA. These distortions are especially problematic at higher frequencies like the 230 gigahertz (GHz) band — also known as the millimeter band, which the EHT currently uses — where signals are rapidly scrambled by atmospheric turbulence and water vapor. As a result, data can be collected only over short time spans, limiting sensitivity and making it harder to detect faint signals.
The FPT technique works by taking advantage of the fact that atmospheric variations affect different frequencies in similar ways, creating a measurable correlation. By observing at a lower frequency, specifically 86 GHz, which experiences slower atmospheric fluctuations, scientists can use that data to correct for the faster, more disruptive variations at 230 GHz. This allows for much longer averaging periods at the higher frequency, significantly boosting signal clarity and sensitivity. This leap in performance could enable the EHT to detect dimmer black holes and finer details than ever before, Issaoun told Space.com.
The EHT is a global network of radio telescopes that uses a technique called Very Long Baseline Interferometry (VLBI) to digitally combine observations from around the world. Currently, the EHT is only operational for about 10 days each April, when weather conditions align across the widespread telescopes. With FPT, astronomers could greatly extend that window, opening up opportunities to observe black holes more regularly and flexibly, even under less-than-ideal weather conditions.
That increased cadence is key to a major goal for the EHT: turning still images of black holes into movies that show how they change over time. Because most black holes evolve slowly, repeated observations are essential to track how matter swirls around them, how jets of material are launched, and how magnetic fields shift. By observing more frequently throughout the year, the EHT would be able to watch black holes change over time — potentially capturing phenomena in real time for the first time, Issaoun noted.
To make this possible, telescopes in the EHT array are being upgraded to support simultaneous observations at multiple frequencies. This includes adding receivers for the 86 GHz band. However, not every telescope in the array needs to be outfitted with the new receiver for FPT to be effective. Even partial implementation can enhance the performance of the full network, since all telescopes work in tandem to build a complete picture of a cosmic target. While the required hardware upgrades are relatively minor, each telescope has unique technical constraints, posing challenges to implementation, according to Issaoun.
RELATED STORIES
— Event Horizon Telescope: A complete guide
— Event Horizon Telescope spies jets erupting from nearby supermassive black hole
— After snapping a photo of the Milky Way's monster black hole, scientists dream of videos
In addition to boosting performance, this technique also adds a new layer of complexity to the images themselves. With multiple frequency bands, researchers can overlay data in different colors to reveal more detailed structures around a black hole. These multiband images will help disentangle features like swirling gas and magnetic fields, painting a more dynamic, multidimensional portrait of black hole environments.
Ultimately, the FPT technique could enable the EHT to not only see black holes more clearly but also more often, unlocking a new era of black hole science.
The team's initial findings were published on March 26 in The Astronomical Journal. The researchers continually work on developing the full potential of the EHT network and exploring even higher-frequency capabilities — such as 345 GHz — that can further complement multiband observations.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Fast Company

29 minutes ago

• Fast Company

Thanks to bans and fees, there are fewer plastic bags littering beaches

It turns out eliminating the 'paper or plastic' question through plastic bag regulation is effectively reducing the number of bags found in shoreline litter across the United States. A new analysis of shoreline cleanup data finds that areas with plastic bag bans or consumer fees have fewer bags turning up in their litter. The research offers some of the strongest evidence yet that regulating plastic bag use makes a difference in reducing the amount of plastic waste in marine ecosystems. A heightened threat to marine wildlife 'We find, largely, that all the regulations do show a decrease in plastic bag litter as a share of total litter on these shores,' says Kimberly Oremus, co-author of the research paper and an assistant professor of marine science and policy at the University of Delaware. The total reduction ranged between 25% and 47%, the study found. About 20 metric tons of plastic end up in the environment each year, estimates the International Union for Conservation of Nature—that amounts to over 2.4 kilograms of plastic for each person on Earth. Plastic bags are particularly prevalent in marine ecosystems. They are very difficult to recycle and, because they are lightweight and have a large surface area for wind to catch, they blow out of the trash and into the environment at higher rates than other plastic items, says Erin Murphy, the ocean plastics science and research manager at the environmental advocacy nonprofit Ocean Conservancy, who was not involved in the research. She added that in 2024 alone, the conservancy's International Coastal Cleanup volunteers gathered up more than a million plastic bags. In addition to getting into the environment at high rates, plastic bags also pose a heightened threat to marine wildlife. Wildlife can become entangled in or smothered by these bags or can mistake them for food, like jellyfish, a favorite among many species. These interactions with plastic can lead to the deaths of endangered and common animals alike and can even contribute to broader population declines. Counting the plastic bags 'One big challenge in studying the effects and regulations of plastics is actually measuring this pollutant in the environment,' says Anna Papp, co-author of the research paper. To overcome this challenge, the study used crowd-funded data from beach cleanups. The data was collected by the Ocean Conservancy as part of their Trash Information and Data for Education and Solutions (TIDES) project. Nearly 19 million people have participated in the data collection worldwide. The study also examined plastic bag policies at various geographical scales between 2017 and 2023. The earliest plastic bag policies in the U.S. were implemented around 2007, researchers say, but an uptick in the mid-2010s more directly led to the policies analyzed in the study. While the data provides insight into how the share of plastic bags found among shoreline litter has changed due to policy measures, an important caveat remains: Plastic litter has been increasing overall. Plastic production doubled from 234 million to 460 million tons between 2000 and 2019—and without mitigation, it is only expected to rise, according to a recent report from the French-based Organisation for Economic Co-operation and Development (OECD). Some regulations are better than others Still, the researchers noted that not all regulations worked equally well. Total bans and consumer fees resulted in greater decreases than partial bans, which still allow businesses to use thicker, potentially reusable plastic bags. The researchers also found that regulation was most effective in places that had a high baseline of plastic bag litter before the bans or fees went into place. The study data seems to indicate that consumer fees were the most effective option for mitigating plastic bag litter, though the paper's authors say more research is needed to confirm this finding. 'These policies are effective, but they're not a panacea for all plastic litter,' Oremus said. 'Anyone who's looking at regulations for plastic broadly needs to think beyond just the consumption side of plastic.'

Fast Company

an hour ago

• Fast Company

Neuroscientists find brain cells that explain why stress keeps you up at night

If your anxiety before a big test or a high-stakes presentation has ever kept you up at night, you can rest easier knowing that scientists are trying to get to the bottom of things. A new study published this month in The Journal of Neuroscience explores how stress interferes with sleep, causing cascading negative effects on memory and other cognitive processes. By pinpointing the specific neural mechanisms involved in stress-related memory problems and sleep disruptions, scientists hope to figure out stress-zapping treatments in the future. A group of researchers from the University of Pennsylvania School of Medicine's Chronobiology and Sleep Institute simulated human stress in lab mice, restraining the animals so they couldn't move. They then observed the animals' neural activity while they slept and gave the mice a spatial memory test. Much like a human stressed out before a big test, the mice slept poorly and showed memory deficits. The researchers went on to simulate the effects of the stress scenario without actually restraining the mice. By activating neurons that release the stress hormone corticotropin in a specific part of the hypothalamus known as the paraventricular nucleus, the research team stressed the mice out and went on to observe the same sleep and memory issues as if the animals had actually been restrained. When they blocked the same stress hormone-releasing neurons during the stress-inducing event, the mice slept a little better and had significantly less trouble during their spatial memory test – a hopeful finding understanding how to mitigate the problems that stress creates in the human brain. The researchers called the findings on the pathways of corticotropin-releasing hormone neurons in that region of the hypothalamus 'an important step toward improving sleep and ameliorating cognitive deficits associated with stress-related disorders' – a conclusion that anyone tired of having that one same stress dream can definitely get behind.

Fox News

an hour ago

• Fox News

Eating more fruits and vegetables linked to surprising effect on sleep

Your daily meal selections could influence the quality of your sleep, new research says. A study from the University of Chicago Medicine and Columbia University found that increasing your intake of fruits and vegetables could help promote more restful sleep. Previous research has shown that people who lack quality sleep may be more likely to indulge in unhealthy foods that are high in fat and sugar — and now this new finding sheds more light on how consumed foods impact sleep. In the small study — which was published in "Sleep Health: The Journal of the National Sleep Foundation" — 34 healthy young adults reported their daily food consumption and wore a tracker to measure how often they woke up or changed sleep patterns during the night, according to a press release. Those who reported eating more fruits and vegetables during the day were found to have "deeper, more uninterrupted sleep." Greater amounts of healthy carbohydrates, like whole grains, were found to have that same benefit, the study found. "Dietary modifications could be a new, natural and cost-effective approach to achieve better sleep," said co-senior author Esra Tasali, MD, director of the UChicago Sleep Center, in the release. "The temporal associations and objectively-measured outcomes in this study represent crucial steps toward filling a gap in important public health knowledge." Based on the study findings, the researchers concluded that people who eat at least five cups of fruits and veggies per day could have a 16% increase in quality of sleep compared to those who eat none of those foods. "Small changes can impact sleep. That is empowering — better rest is within your control." "16 percent is a highly significant difference," Tasali said in the release. "It's remarkable that such a meaningful change could be observed within less than 24 hours." "Based on current data, the experts confidently advise that regularly eating a diet rich in complex carbohydrates, fruits and vegetables is best for long-term sleep health," the release stated. The American Heart Association provides the following examples of fruit and veggie servings that equate to 1 cup of produce. Dr. Chelsie Rohrscheib, head sleep expert at Wesper in Michigan, said that most sleep professionals recognize that a healthy diet supports overall well-being, including sleep quality — "so the findings of this study are not entirely unexpected." "However, it's important to note that this was a relatively small study composed primarily of young adult male participants, which limits generalizability," Rohrscheib, who was not involved in the study, told Fox News Digital. "While the results were statistically significant, the overall reduction in sleep fragmentation was modest, about 16%." The study was also observational in nature, she noted, which means it lacked the control of a randomized trial. "Ideally, future research would compare a group consuming a fruit- and vegetable-rich diet to a control group with limited intake to better establish causality," the doctor added. The researchers plan to conduct more studies to confirm that eating produce causes better sleep and to determine the "underlying mechanisms of digestion, neurology and metabolism" driving this impact, the release stated. For more Health articles, visit "People are always asking me if there are things they can eat that will help them sleep better," said co-senior author Marie-Pierre St-Onge, PhD, director of the Center of Excellence for Sleep & Circadian Research at Columbia, in the release. "Small changes can impact sleep. That is empowering — better rest is within your control."