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Award-winning data scientist She Yiyuan takes job in China after decades in US
Award-winning data scientist She Yiyuan takes job in China after decades in US

The Star

time11-07-2025

  • Science
  • The Star

Award-winning data scientist She Yiyuan takes job in China after decades in US

Award-winning data scientist She Yiyuan has left the United States to take up a full-time position at Westlake University in eastern China's Zhejiang province. She, who taught at Florida State University for almost two decades, will conduct research at his new institution as a chair professor at the school of science and the Institute for Theoretical Sciences, according to a July 1 social media post by the Chinese university. She has won the Career Award, the most prestigious award from the US National Science Foundation to support early career scholars. He is a fellow of some of the world's most prominent communities of statisticians, including the American Statistical Association and the Institute of Mathematical Statistics. He is also an elected member of the International Statistical Institute. The statistician's move is set to boost China's position in emerging hi-tech sectors, such as artificial intelligence (AI) and medical sciences, amid fierce competition with the West. Statistics, as the foundation of data science, is 'an indispensable supporting discipline in fields such as machine learning and artificial intelligence', according to Westlake University. The discipline underpins a wide range of fields, including the natural sciences, engineering, technology and social sciences. According to the university's website, She's research focuses on high-dimensional statistics, machine learning, optimisation techniques, big data analysis and robust statistics, among other areas. His research takes a cross-disciplinary approach, integrating the theories, methods, and applications of statistics, mathematics and computer science. Westlake University said that She's research not only provided new methods for machine learning to discover patterns in complex data, but also offered effective tools and innovative approaches for data analysis in disciplines such as biomedicine and economics. Large language models (LLMs), the technology that underpins generative AI, are advanced machine learning models with vast numbers of parameters that enable them to process and generate humanlike text, code and other data types. However, the number of parameters in these models now far exceeds human cognitive capacity. To tackle this challenge, She has been working to explore the intrinsic relationships behind data, with the aim of making seemingly chaotic and complex data clear and interpretable using advanced algorithms. He obtained his bachelor's and master's degrees from Peking University, where he received training in mathematics and computer science, before moving to the US to study statistics. In 2008, She received his doctorate from Stanford University. He then began his faculty career in the statistics department at Florida State University, where he was promoted to full professor in 2018. A growing number of high-profile mathematicians have chosen to return to China after decades-long careers in the United States. At the end of June, mathematician Yitang Zhang left the US to become a full-time professor at Sun Yat-sen University in southern China. The 70-year-old number theorist has been appointed to the university's new Institute of Advanced Studies Hong Kong, and he will live and work in the Greater Bay Area. Shen Zhongwei, formerly a distinguished professor at the University of Kentucky, joined Westlake University full time as a chair professor of mathematics this month. Shen received his PhD from the University of Chicago in 1989 and began teaching at the University of Kentucky in 1995. - South China Morning Post

Award-winning data scientist She Yiyuan takes job in China after decades in US
Award-winning data scientist She Yiyuan takes job in China after decades in US

South China Morning Post

time10-07-2025

  • Science
  • South China Morning Post

Award-winning data scientist She Yiyuan takes job in China after decades in US

Award-winning data scientist She Yiyuan has left the United States to take up a full-time position at Westlake University in eastern China's Zhejiang province. Advertisement She, who taught at Florida State University for almost two decades, will conduct research at his new institution as a chair professor at the school of science and the Institute for Theoretical Sciences, according to a July 1 social media post by the Chinese university. She has won the Career Award, the most prestigious award from the US National Science Foundation to support early career scholars. He is a fellow of some of the world's most prominent communities of statisticians, including the American Statistical Association and the Institute of Mathematical Statistics. He is also an elected member of the International Statistical Institute. The statistician's move is set to boost China's position in emerging hi-tech sectors, such as artificial intelligence (AI) and medical sciences, amid fierce competition with the West. Statistics, as the foundation of data science, is 'an indispensable supporting discipline in fields such as machine learning and artificial intelligence', according to Westlake University. The discipline underpins a wide range of fields, including the natural sciences, engineering, technology and social sciences. Advertisement According to the university's website, She's research focuses on high-dimensional statistics, machine learning, optimisation techniques, big data analysis and robust statistics, among other areas. His research takes a cross-disciplinary approach, integrating the theories, methods, and applications of statistics, mathematics and computer science. Westlake University said that She's research not only provided new methods for machine learning to discover patterns in complex data, but also offered effective tools and innovative approaches for data analysis in disciplines such as biomedicine and economics.

Lightning strikes the Arctic: What will it mean for the Far North?
Lightning strikes the Arctic: What will it mean for the Far North?

National Observer

time08-07-2025

  • Science
  • National Observer

Lightning strikes the Arctic: What will it mean for the Far North?

So far, the detection networks that count lightning strikes around the world have seen only a vague hint of an upwards trend in total global lightning. But in the north, the story is different. In the Arctic, there has been a far more dramatic upsurge, with one report finding that north of the 80th parallel (passing through the top of Greenland), recorded lightning events went from around 100 per year in the early 2010s to more than 7,000 in 2021. Historically, 'the Arctic basically didn't have lightning at all,' says Robert Holzworth, a retired atmospheric physicist with the University of Washington in Seattle. 'Now it's got a lot more. It's easy to see that.' Researchers are now scrambling to get a better sense of how much lightning will increase in the north, and what that will mean for people, local ecosystems, and the global climate. Will more lightning spark more fires, or will more rain — also brought by climate change — dampen them? And is what's happening in the north an aberration, or does it signal change across the rest of the planet? In 2014, UC Berkeley atmospheric scientist David Romps famously calculated that lightning strikes increase by about 12 percent per degree Celsius of global warming, which could add up to a 50 percent increase by 2100. This estimate was based on just two main factors, which Romps showed were tightly linked to lightning across the continental United States: precipitation and 'convective available potential energy,' a measure of air instability. More rainclouds (with water and ice particles bumping up against each other to create electric charge) and more convection beget more lightning. But as scientists have considered other factors, they have produced a wider variety of lightning forecasts. One of these factors is the amount of ' graupel ' in clouds: These tiny soft bits of hail increase clouds' electrical charge. Another factor is air pollution. The dirtier the air, the more lightning. When Covid struck, for example, the reduction in air, road, and shipping traffic led to cleaner air, which slashed global lightning rates by about 15 percent. In 2022, changes to shipping pollution regulations similarly caused a huge reduction in lightning strikes over shipping lanes. Because of all these complexities, along with the fact that climate models typically struggle with small-scale phenomena like thunderstorms, lightning forecasts frequently disagree. Some even predict that global lightning might decrease, not increase. There is 'a large knowledge gap in the prediction of future global lightning activity,' says Yuzhong Zhang, an atmospheric chemist at Westlake University in Hangzhou, China. The World Wide Lightning Location Network records between 600,000 and 800,000 lightning strikes every day around the globe, or more than 200 million per year. This network, which has been running since 2004, picks up very-low-frequency radio waves created by lightning, which bounce off the ionosphere and travel around the globe. By detecting this signal at a handful of the dozens of global stations, and timing them to within nanoseconds, researchers can triangulate where and when lightning struck. The WWLLN (pronounced 'woollen') catches only about 30 percent of global lightning, missing a lot of little strikes but detecting 80 percent of high-energy strikes. Other local or commercial networks catch more strikes, but WWLLN has the longest and most consistent global dataset available to researchers. Jed Kaplan, an earth system scientist at the University of Calgary who combs through the WWLLN data each year, says that as of 2022 there were no clear trends in the global lightning data — though more recent data, he says, suggest a hint of an overall increase. In the Arctic, however, there are more solid signs. Holzworth's 2021 study of WWLLN data found that from 2010 to 2020, warmer summers saw more lightning hitting above the 65th parallel (around the middle of Alaska). The hottest year in this stretch, 2019 (which was globally 0.93 degrees Celsius warmer than the 1951-1980 average), saw three times more lightning in the Arctic as a fraction of the global total than the coolest year, 2011 (which was 0.65 degrees Celsius warmer). In other words, a 0.3-degree Celsius bump in global temperature came with a tripling of Arctic lightning. That's just for one 10-year stretch, cautions Holzworth, and it isn't clear that this trend will continue. In fact, he says, his as-yet-unpublished analysis suggests that lightning has dipped a bit in the Arctic in the last few years. Yet the Finnish weather company Vaisala, which runs its own lightning detection network, has seen an even more dramatic spike in the Far North. Its 2022 report says that while lightning strike numbers have remained steady up to the 65th parallel, researchers saw in 2021 nearly twice as many lightning events (including both lightning within clouds and lightning that strikes the ground) north of the 80th parallel than in the previous nine years combined. More lightning doesn't always lead to more fires, notes Kaplan. Fires require not just an ignition but also a lot of dry fuel to burn. The vast majority of lightning strikes in the tropics, but it comes with heavy rains that prevent fire. In some places, including in the United States, the majority of wildfires are started by human carelessness or equipment malfunctions, not by lightning. But in high latitudes, lightning is the main cause of large fires, so an increase in lightning activity in the north is cause for concern. The Alaska Fire Science Consortium is tracking what's going on in Alaska. The peak fire activity there occurs in June, as long, sunny days dry out 'duff fuels' — decomposing litter, lichen, and moss — and lightning storms hit more frequently. Those conditions stretch into July. By the end of July, Alaska tends to get more rain, dampening fires. The consortium's 2025 report notes that Alaska is getting warmer — the summer average is now more than 54 degrees F, compared to about 52 degrees F in 1970. It's getting wetter too, but not, for now, fast enough to offset the effects of warming on fire. And lightning is increasing: There has been a doubling in lightning strikes in Alaska's western interior over the past 10 years. 'We know that from the networks, but also from local people — not just the elders but middle-aged people — who have noticed things changing,' says Thoman. Much of Alaska has historically been too dry for lightning; now it is tipping over the edge to having just enough moisture in the air to form thunderstorms, Thoman says. All these factors have together led to more frequent large-fire years in Alaska. 'The big fire seasons are roughly doubling in frequency,' says Thoman. Lightning plays an important role in that. In 2015, for example, Alaska saw more than 50,000 strikes over a three-day period (more than a third of the state's annual average of 120,000 per summer), and it experienced its second largest fire season yet, with more than 5 million acres burned. Fire is a natural part of the northern ecosystem. But the new fire regime comes with hotter fires, says Thoman, which can incinerate rather than activate the seed cones of fire-adapted trees. Burning duff creates a huge amount of smoke, which is problematic for people who live downwind. And the burning of trees, which sometimes never grow back, can strip the landscape of shade and speed up permafrost melt, which releases methane — a powerful greenhouse gas. One recent study forecast that lightning strikes could more than double by 2100 in tundra and boreal forest areas that are underlain by permafrost. This, the authors write, could increase the area consumed by wildfire by more than five times and release large quantities of methane. Permafrost thaw isn't well represented in climate models, so the amount of greenhouse gas that might be released this way is unknown. 'There's not enough attention on this in my opinion,' says Thoman. There's one reason, though, to think that more lightning might help mitigate possible boosts in methane: by changing the chemistry of the atmosphere. In 2021, researchers flying planes over Colorado and Oklahoma to study the air during lightning storms were startled to find that strikes produced massive amounts of oxidants — more than 1,000 times the amount they were expecting to find. These oxidants — hydroxyl and the hydroperoxyl radical — are known to scrub away methane, acting like a kind of atmospheric cleanser. The effect can be dramatic, as Zhang and his colleagues learned by studying the reverse dynamic: a sharp increase in methane that occurred during Covid. The team calculated that the global decline in lightning — due to reduced traffic and air pollution during the pandemic — caused a dramatic 2 percent global reduction in hydroxyl in 2020, as compared to 2019. At the same time, atmospheric methane increased by about 15 parts per billion in 2020 — one of the biggest annual spikes ever seen and more than 50 percent greater than the rise in 2019. A host of different theories have been put forward to explain this methane boost, including industrial leaks and wetland emissions, but the lightning theory is powerful: Zhang estimates it could account for about half of the spike. For now, no one knows the likely magnitude of either effect. If lightning strikes continue to increase in the Arctic, or elsewhere, how much will that boost methane or mop it up? Thunderstorms, says Holzworth, play a hugely important role in moving ions and molecules around in the upper atmosphere, and the impacts of that activity on climate change are complex and unknown. 'These are pieces of the puzzle that need to be solved.' Holzworth thinks that in places where there's little lightning now, 'there will be more – maybe even in the Antarctic,' he says. 'But it's not so clear. The weather dynamics are changing.'

Chinese study uncovers cancer-fighting potential of impotence drugs like Viagra
Chinese study uncovers cancer-fighting potential of impotence drugs like Viagra

South China Morning Post

time05-07-2025

  • Health
  • South China Morning Post

Chinese study uncovers cancer-fighting potential of impotence drugs like Viagra

Men around the world dealing with sexual impotence have been treated for years with the drug sildenafil, sold under brand names including the well-known Viagra A new Chinese study now suggests that the drug may perhaps also help to save lives. Sildenafil could combat cancer by strengthening a group of key anti-tumour immune cells, according to the study by researchers from China's Westlake University, Zhejiang University, Peking Union Medical College and Shanghai Institute of Immunology. Dendritic cells, which act as the 'intelligence agents' of the immune system, can become severely depleted or functionally impaired as the tumour progresses. According to the researchers, sildenafil could reverse the process and help to restore the cells. The researchers, led by Westlake cancer immunology specialist Zhou Ting, published their findings in the peer-reviewed journal Nature on June 25. In an article posted on its social media account the same day, the university hailed the discovery as a possible new 'form of tumour immunotherapy strategy'.

Peking University dropout cracks IUT – the ‘alien's language' that can upend mathematics
Peking University dropout cracks IUT – the ‘alien's language' that can upend mathematics

South China Morning Post

time30-05-2025

  • Science
  • South China Morning Post

Peking University dropout cracks IUT – the ‘alien's language' that can upend mathematics

Zhou Zhongpeng, a 28-year-old Peking University doctoral dropout turned tech engineer , has deciphered one of mathematics' most cryptic frontiers dubbed the 'alien's language' for its impenetrable 2,000-page framework and extraterrestrial-like notation. Advertisement Japanese professor Shinichi Mochizuki's Inter-universal Teichmueller Theory (IUT) has baffled experts since its 2012 debut as a proposed proof for the ABC conjecture , a Holy Grail problem with radical implications for number theory. Armed with late-night study sessions and a discarded academic career, Zhou's breakthrough may have transformed the ABC conjecture from conceptual abstraction to computationally usable tool. The feat, achieved during weekends between gruelling 14-hour shifts as a Beijing algorithm engineer, not only revives Mochizuki's controversial theory but threatens to eclipse Andrew Wiles' famed 1995 proof of Fermat's Last Theorem in scope. 'His results are infinitely stronger than Wiles,' declared Professor Ivan Fesenko, a leading IUT authority who now mentors Zhou at Westlake University. Advertisement Kyoto University mathematician Shinichi published a 500-page paper claiming to prove the ABC conjecture in 2012.

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