Scientists Just Caught Lightning Firing Off a Gamma-Ray Blast
For the first time, scientists have caught lightning in the act of unleashing a powerful burst of gamma radiation known as a terrestrial gamma-ray flash (TGF).
Researchers at the University of Osaka led the work—an intimate look at one of the most powerful and mesmerizing natural phenomena on our planet. The work also marks a step forward in the quest to understand how thunderstorms manage to pump out radiation we generally associate with the universe's most extreme objects: black holes and neutron stars. The team's study describing the observation was published today in Science Advances.
Using a cutting-edge multi-sensor system in Kanazawa City, Japan, the team observed a lightning discharge split between two paths—one descending from a thundercloud, the other arcing up from a ground-based transmission tower. The scientists found that a gamma flash occurred just 31 microseconds before the two discharges met in the air.
'Most TGFs have been detected by satellites, but spaceborne observations can provide limited information,' said lead author Yuuki Wada, a researcher at the University of Osaka, in an email to Gizmodo. 'In this research, we performed a ground-based observation to see TGFs in detail.'
TGFs were first detected from space in the 1990s, but despite more than two decades of research, their exact origin has remained elusive. Last year, a pair of papers in Nature revealed gamma-ray 'glows' and flickering flashes during tropical thunderstorms—radiation that scientists recorded by flying a retrofitted spy plane directly into storm systems. That research hinted at a wider family of radiation events lurking inside thunderclouds, with TGFs representing some of the briefest and most intense bursts.
While those plane-based observations revealed where and when TGFs occur, the Osaka team's setup reveals the conditions in which they form. The gamma burst in this case appeared just before the two lightning leaders collided, indicating that a supercharged electric field accelerated electrons to near light speed, producing the energetic event.
'The recent Nature papers are based on airborne observations,' Wada said. 'They are also very interesting, but ground-based observations can be achieved much less expensively.'
And unlike the weaker 'flickering gamma-ray flashes' recently discovered in tropical skies, this TGF was tightly synchronized with a lightning strike. While the previous papers provided a sweeping overview of how many gamma-ray events occur in a given tropical thunderstorm, the recent paper scrutinized one particular event to understand how lightning produces enough energy to generate gamma rays.
'The multi-sensor observations performed here are a world-first; although some mysteries remain, this technique has brought us closer to understanding the mechanism of these fascinating radiation bursts,' said co-author Harufumi Tsuchiya, a researcher at the Japan Atomic Energy Agency, in a University of Osaka release.
Studying TGFs could help illuminate one of the most remarkable and powerful natural phenomena in our skies—so intense it was once attributed to the gods. The recent study shows that there's more to lightning than meets the eye—its might produces radiation associated with some of the universe's most powerful explosions.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
an hour ago
- Yahoo
Why Rocket Lab Corp. (RKLB) Soared On Friday
We recently published a list of . In this article, we are going to take a look at where Rocket Lab Corp. (NASDAQ:RKLB) stands against other Friday's best-performing stocks. Rocket Lab grew its share prices by 9.34 percent on Friday to finish at $28.92 apiece as investors loaded up portfolios ahead of its launch of a new mission on Tuesday. Rocket Lab Corp. (NASDAQ:RKLB) is scheduled to launch The Mountain God Guards mission for the Institute for Q-shu Pioneers of Space, Inc. (iQPS), a Japan-based Earth imaging company, through 'Electron,' the world's most frequently launched orbital small rocket. The mission will launch a single synthetic aperture radar imaging satellite called QPS-SAR-11 to a 575-kilometer circular Earth orbit, which will join the rest of the iQPS constellation in providing high-resolution images and Earth monitoring services globally. A launch pad atop a grassy hill, smoke filled sky from a successful voyage to space. The launch will take place at Rocket Lab Corporation's (NASDAQ:RKLB) Launch Complex 1 in New Zealand. Rocket Lab Corporation (NASDAQ:RKLB) said that The Mountain God Guards will mark its 8th mission for this year alone, its 4th out of the 8 missions dedicated to iQPS, its 66th Electron launch overall, and the 227th satellite delivered to space. Overall, RKLB ranks 9th on our list of Friday's best-performing stocks. While we acknowledge the potential of RKLB as an investment, our conviction lies in the belief that some AI stocks hold greater promise for delivering higher returns and have limited downside risk. If you are looking for an extremely cheap AI stock that is also a major beneficiary of Trump tariffs and onshoring, see our free report on the best short-term AI stock. READ NEXT: 20 Best AI Stocks To Buy Now and 30 Best Stocks to Buy Now According to Billionaires. Disclosure: None. This article is originally published at Insider Monkey.
Yahoo
an hour ago
- Yahoo
Why Rocket Lab Corp. (RKLB) Soared On Friday
We recently published a list of . In this article, we are going to take a look at where Rocket Lab Corp. (NASDAQ:RKLB) stands against other Friday's best-performing stocks. Rocket Lab grew its share prices by 9.34 percent on Friday to finish at $28.92 apiece as investors loaded up portfolios ahead of its launch of a new mission on Tuesday. Rocket Lab Corp. (NASDAQ:RKLB) is scheduled to launch The Mountain God Guards mission for the Institute for Q-shu Pioneers of Space, Inc. (iQPS), a Japan-based Earth imaging company, through 'Electron,' the world's most frequently launched orbital small rocket. The mission will launch a single synthetic aperture radar imaging satellite called QPS-SAR-11 to a 575-kilometer circular Earth orbit, which will join the rest of the iQPS constellation in providing high-resolution images and Earth monitoring services globally. A launch pad atop a grassy hill, smoke filled sky from a successful voyage to space. The launch will take place at Rocket Lab Corporation's (NASDAQ:RKLB) Launch Complex 1 in New Zealand. Rocket Lab Corporation (NASDAQ:RKLB) said that The Mountain God Guards will mark its 8th mission for this year alone, its 4th out of the 8 missions dedicated to iQPS, its 66th Electron launch overall, and the 227th satellite delivered to space. Overall, RKLB ranks 9th on our list of Friday's best-performing stocks. While we acknowledge the potential of RKLB as an investment, our conviction lies in the belief that some AI stocks hold greater promise for delivering higher returns and have limited downside risk. If you are looking for an extremely cheap AI stock that is also a major beneficiary of Trump tariffs and onshoring, see our free report on the best short-term AI stock. READ NEXT: 20 Best AI Stocks To Buy Now and 30 Best Stocks to Buy Now According to Billionaires. Disclosure: None. This article is originally published at Insider Monkey.
Yahoo
4 hours ago
- Yahoo
‘Never quit the lunar quest' was this moon mission's motto. Here's its tragic tale
Editor's note: A version of this story appeared in CNN's Wonder Theory science newsletter. To get it in your inbox, sign up for free here. As scientists search for worlds that may be habitable for life, they've discovered a type that is common in the universe — but doesn't exist in our own solar system. These enigmatic planets are called sub-Neptunes, which are larger than Earth but smaller than Neptune. An April study catapulted one such world, named K2-18b, into the spotlight. Astronomers at the University of Cambridge claimed they detected molecules in the planet's atmosphere that might be biosignatures — markers of biological activity that could hint at past or present life. Now, other groups of astronomers have looked at the same data and disagree with the findings, saying there is more to the story. The twists and turns in the ongoing conversation around planet K2-18b showcase why the search for evidence of life beyond Earth is so difficult. Indeed, persistence is everything when it comes to space investigation. 'Never quit the lunar quest' was the motto underpinning a high-stakes mission that aimed to touch down on the moon Thursday. But Tokyo-based Ispace lost contact with its vehicle at the time it should have landed. The Resilience spacecraft was Ispace's second bid at a soft lunar landing. The company's previous try with the Hakuto-R lunar lander crashed into the moon in April 2023. 'This is our second failure, and about these results, we have to really take it seriously,' said Ispace CEO Takeshi Hakamada of the nail-biting attempt. Ispace has its work cut out for it, but it isn't giving up. New research combining artificial intelligence with radiocarbon dating is changing the way scholars think about the Dead Sea Scrolls. Bedouin shepherds first spotted the scrolls in 1947 within a cave in the Judaean Desert. Archaeologists then recovered thousands of scroll fragments, including the oldest copies of the Hebrew Bible, from 11 caves near the site of Khirbat Qumran. 'They completely changed the way we think about ancient Judaism and early Christianity,' said lead study author Mladen Popović, a dean at the University of Groningen in the Netherlands. Scholars thought the roughly 1,000 manuscripts, written mostly on parchment and papyrus, ranged from the third century BC to the second century AD. But some of the scrolls, which serve as a crucial intellectual time capsule, could be much older, the new analysis suggests. A World War I-era submarine was lost at sea off California's coast nearly 108 years ago, killing 19 crew members. Now, researchers from the Woods Hole Oceanographic Institution have captured never-before-seen deep-sea imagery of the wreckage. The plague pandemic known as the Black Death killed at least 25 million people across medieval Europe over five years. The culprit behind the disease is a bacterium called Yersinia pestis, which has led to three major plague outbreaks since the first century AD — and it still exists today. How has the plague persisted for centuries? Changes to one gene in the bacterium created new, less deadly strains that kept hosts alive longer so it could keep spreading. The weaker strains have since gone extinct, according to new research. But the findings could yield key clues to help scientists manage the current bacterium's dominant lineage, which is of the deadlier variety. If you've ever walked through a fruit orchard, you might have been steps away from a living tower of worms. That's what researchers from the Max Planck Institute of Animal Behavior and the University of Konstanz in Germany found when they inspected rotten pears and apples. Hundreds of the microscopic worms, called nematodes, climbed on top of one another to form structures 10 times their size — even making a twisting 'arm' to sense the environment — leading scientists to question what's driving the behavior. 'What we got was more than just some worms standing on top of each other,' said senior study author Serena Ding, a Max Planck research group leader of genes and behavior. 'It's a coordinated superorganism, acting and moving as a whole.' These stories will pique your curiosity: — For over a century, astronomers thought the Milky Way and Andromeda galaxies would collide in 4.5 billion years, but new telescope observations may change that. However, another galaxy could entangle with ours sooner. — Archaeologists who uncovered the remains of an ancient Mayan complex in Guatemala named the site after two humanlike rock figures that are believed to represent an 'ancestral couple,' according to the country's Ministry of Culture and Sport. — A fossil of the earliest known bird that was kept in a private collection for decades has provided scientists with 'one 'Wow!' after another,' including the first flight feathers seen in an Archaeopteryx specimen, said Dr. Jingmai O'Connor, associate curator of fossil reptiles at the Field Museum. Like what you've read? Oh, but there's more. Sign up here to receive in your inbox the next edition of Wonder Theory, brought to you by CNN Space and Science writers Ashley Strickland, Katie Hunt and Jackie Wattles. They find wonder in planets beyond our solar system and discoveries from the ancient world.
