Five-dimensional physics solves decades-old mystery of mercury fission
Unlike previous models that struggled to explain mercury's asymmetric fission, this approach captures the unusual double-humped mass distribution seen in mercury-180, revealing how nuclear shell effects continue to shape fission dynamics even at higher excitation energies than previously assumed.
By demonstrating that these structural effects persist beyond heavy elements like uranium and plutonium, the findings enhance the understanding of nuclear fission processes and could improve predictive models for unexplored isotopes across the nuclear chart.
Aiming to uncover the reasons behind mercury's unusual fission behavior, Associate Professor Chikako Ishizuka and her international team at the Institute of Zero-Carbon Energy, Science Tokyo, developed a five-dimensional Langevin model. Published online in Physical Review C on May 20, 2025, their study offers precise predictions of fragment distributions and total kinetic energy, earning recognition as an Editor's Suggestion by the journal.
Unlike the well-studied fission of heavy elements such as uranium and plutonium, the way lighter nuclei like mercury split remains poorly understood.
Experiments have revealed that mercury-180 undergoes an unusual asymmetric fission, producing fragments of very different sizes. These surprising results challenge current theories and highlight the need to understand how nuclear structure influences fission in elements with atomic numbers below 82.
The Langevin model tracks the changing shape of the nucleus in real time, from its initial equilibrium state to the point of scission when it splits into smaller fragments. Developing consistent models for these lighter elements is crucial, as they often behave very differently from well-studied heavy isotopes.
In their study, the team focused on two mercury isotopes: 180Hg, created by colliding 36Ar with 144Sm, and 190Hg, formed from 36Ar and 154Sm. They calculated how the fission fragments split and their total kinetic energies.
One major improvement in the model was the introduction of a soft wall at the edges of the deformation space, allowing it to more accurately simulate how the nucleus changes shape during fission. The researchers also included the way shell effects evolve with rising excitation energy, a factor often oversimplified in earlier models.
https://www.youtube.com/shorts/Uouija90odI
Additionally, the simulation closely matched experimental results for both the fragment mass distributions and total kinetic energy. For 180Hg, it successfully recreated the unusual double-peaked mass pattern observed in experiments. The study also revealed that shell effects remain important even at higher excitation energies of 40–50 MeV, contradicting earlier assumptions that they disappear.
The researchers also included multichance fission, where the nucleus releases neutrons before splitting. They found this has little impact on fragment masses at low energies but strongly affects the total kinetic energy, making TKE a useful way to study multichance fission.
According to Ishizuka, these findings offer valuable new insights into the fission process, deepening our fundamental understanding of nuclear behavior, and they confirm that the 5D Langevin approach is a reliable and effective tool for accurately predicting key fission observables.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
13 hours ago
- Yahoo
Dental Remains Reveal Odd Mating Habits of Early Humans
Dental remains dating back 300,000 years, which were discovered at a well-known Chinese archaeological site, have revealed surprising information about human breeding practices, according to a new study published in the Journal of Human Evolution. What did the study find? Researchers say the groundbreaking discovery, which was the result of a decade-long international collaboration between Beijing's Institute of Vertebrate Paleontology and Paleoanthropology and Spain's Centro Nacional de Investigación sobre la Evolución Humana, represents something which has 'never [been] seen before' on the fossil record. The teeth combine archaic features often found in Homo erectus, like strong molar and premolar roots which are characteristic of Middle Pleistocene hominins, with more advanced traits present in Homo sapiens, like smooth buccal surfaces and occlusal outlines. This suggests that human evolution in Asia was much more complicated than previously thought, with humans interbreeding with Homo erectus. What Are the Experts Saying? "It's a mosaic of primitive and derived traits never seen before – almost as if the evolutionary clock were ticking at different speeds in different parts of the body," explained María Martinón-Torres, the study's co-author. The evidence suggests that modern Homo sapiens were in Asia up to 300,000 years ago, which is much earlier than previously thought. Paleobiologist José María Bermúdez de Castro explained that "the Hualongdong discovery reminds us that human evolution was neither linear nor uniform, and that Asia hosted multiple evolutionary experiments with unique anatomical outcomes." The dental remains share many similarities with the teeth of Late Pleistocene hominins, indicating that modern human traits began emerging in Asia long before Homo erectus spread across the globe. Scientists will next conduct additional experimentation to determine the precise evolutionary position and identity of the species to which the teeth Remains Reveal Odd Mating Habits of Early Humans first appeared on Men's Journal on Aug 14, 2025 Solve the daily Crossword
Yahoo
16 hours ago
- Yahoo
Local residents develop ranches of unusual species to revive coral reefs: 'We've raised thousands'
Local residents develop ranches of unusual species to revive coral reefs: 'We've raised thousands' It might look like a pickle or simply a brownish lump, but don't let the unassuming appearance of a sea cucumber fool you. For the coastal ecosystems of the Philippines, the cucumbers are critical for marine life, local economies, and food supplies. But overfishing in the 1970s and '80s depleted their populations, throwing entire ecosystems out of whack well into the 2000s. To address the problem, an unlikely fleet of heroes has arisen with the development of sea cucumber ranches, the BBC reported. These ranches serve as nurseries and breeding grounds for the marine species from larval through mature ages. For perspective, the daily catch per person in the small town of Bolinao was up to 220 pounds a day in the 1980s. By 2002, that had plummeted to fewer than 6 pounds. "When I was a child, I used to see loads of them, but now that I'm older, they've become so little," said Aweng Caasi, a 61-year-old widow and one of the key ranchers and guardians of the sea cucumbers in Bolinao. "We want to restore them so they can multiply." The cucumbers are eaten for food and used in medicine, but they provide even more value in their natural environment. They're often nicknamed the janitors of the sea, cleaning up the seafloor by munching on bacteria and decaying organic matter. This recycles beneficial nutrients into the environment, making waters more hospitable to a variety of fish species. They were even found to be linked to lower disease rates among corals, according to a study published in the journal Nature Communications. Humans benefit tremendously from a healthier marine environment, too. In Bolinao, the reef provides protection from storms, fish to sell and eat, and a major draw for tourists. "This is a big help for us fisherfolk," Gemma Candelario told BBC. Gemma and Marivic Carolino raise mangroves near Bolinao, and they began monitoring and guarding sea cucumbers in their area in 2022. Do you think America does a good job of protecting its natural beauty? Definitely Only in some areas No way I'm not sure Click your choice to see results and speak your mind. "The sea cucumbers would eat waste [cleaning the ecosystem] so that's why more fish would appear. Some fish would lay eggs in our mangroves and other animals would appear such as crabs and shrimp." The program is mostly managed by women and children, who raise the cucumbers in hatchery tanks at the University of the Philippines Marine Science Institute (UPMSI) before transferring them to the ranches. There, they guard their protected areas against poachers. Aweng Caasi, for example, regularly spends hours at a time sitting in a wooden hut over Bolinao's waters. The program has been tremendously successful; in its first 19 months, the local sea cucumber population grew more than 13 times its original size, from 400 individuals in 2007 to over 5,500 in 2009. "It makes me happy to see the ones I've cared for grow bigger, and to see more of them," Candelario said. "We've raised thousands and we see them clearly during the monitoring period. I can't help but be glad to see how many they've grown to become." Following its remarkable success, the provincial government approved an ordinance in January to officially declare several of the dedicated areas as protected sea cucumber reserves. The law also prohibited harvesting or trading sea cucumbers below a certain weight to maintain mature reproductive populations. Join our free newsletter for good news and useful tips, and don't miss this cool list of easy ways to help yourself while helping the planet. Solve the daily Crossword
Yahoo
a day ago
- Yahoo
Scientists make remarkable discovery after studying 'green roofs' on buildings: 'Can offer unexpected co-benefits'
Scientists make remarkable discovery after studying 'green roofs' on buildings: 'Can offer unexpected co-benefits' A Tongji University research project has provided evidence that green roofs can remove microplastics from rainwater, according to Anthropocene. The vegetative building toppers have long been used to help insulate structures, reducing heating and cooling costs. They can also reduce stormwater runoff. They consist of a waterproof membrane, soil, plants, and some other infrastructure needed to hold it all together. They also provide urban habitat for birds and insects, and can last twice as long as regular roofs, all according to the Government Accountability Office. A lab-scale mockup in Shanghai demonstrated the ability to filter out the tiny plastic polluters. The roof was able to collect 97.5% of ground rubber, polyurethane fibers, and other microplastics that were added to simulated rainfall, per the lab summary. "Our study highlights the powerful potential of urban green roofs to act as passive interceptors of atmospheric microplastics," research team member Shuiping Cheng, from Tongji University in Shanghai, said in Anthropocene. Microplastics are turning up all over the place, including in wild animal feces, the deep sea, and human blood, according to multiple reports. Washing a load of clothes sheds millions of microplastics, per PBS News. A researcher at the University of Bonn in Germany has developed a fish gill-inspired filter to capture most of them from the machines. The health impact of the prolific pollution is still being studied, but Harvard Medicine said that scientists are concerned about cancer and reproductive health risks, among other troubles. In Shanghai, vegetative roofs top only a "small fraction" of the sprawling city of more than 24 million people. Anthropocene reported that those green building surfaces can capture nearly 62 tons of microplastics annually. "These nature-based solutions can offer unexpected co-benefits in mitigating airborne pollution in densely built environments," Cheng said in the report. The GSA added that the natural roofs can also limit the impact of urban heat islands, negating "increased energy consumption, heat-related illness and death, and air pollution" from concrete- and asphalt-abundant cityscapes. NASA has reported that planet warming is contributing to increased heat wave risks that may make some places uninhabitable. Would you live in a home with a grass-covered roof? Sign me up Only if it looks cool Only if it saves me money No way Click your choice to see results and speak your mind. In the study, Cheng's team found that irregularly shaped microplastics were captured by the rooftop soils better than smoother ones that shed from stretch clothing. Other anomalies were also noted. "We were surprised to observe that fiber-shaped microplastics captured by the green roof system could become resuspended into the atmosphere under airflow disturbance," like windy conditions, Cheg said in the story. The soil could also eventually become "saturated" with the small particles. Fascinatingly, earthworms were noted as a possible solution to metabolize the plastics, all per Anthropocene. Eliminating plastic use is a way anyone can help. Ditching single-use plastic bottles, for example, can provide you with a better, planet-friendly water carrier and save you a couple of hundred dollars a year. On a larger scale, research from Shanghai is proving the value of greener building topsides. The team intends to help grow the concept. "A key next step is to validate these results under real-world conditions on full-scale green roofs. We are actively exploring opportunities to carry out such long-term field studies to better understand microplastic retention and release dynamics over time," Cheng said in the report. Join our free newsletter for weekly updates on the latest innovations improving our lives and shaping our future, and don't miss this cool list of easy ways to help yourself while helping the the daily Crossword
