Friday, July 17, 2026

 

A superconductor's hidden identity revealed




The Hebrew University of Jerusalem

Shahar Simon 

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Shahar Simon 

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Credit: Avigail Ben Eliyahu





New study reveals that two widely studied ultrathin superconducting materials are more sophisticated than they appear. Although they seem to behave like simple superconductors with a single energy gap, they actually contain two strongly interacting superconducting states that work together and disguise themselves as one. This finding resolves a long-standing mystery about how these materials behave, providing new insight into superconductivity that could help scientists design better superconducting materials for future technologies such as quantum computers, ultra-efficient electronics, and advanced sensors.

Sometimes, the biggest scientific discoveries come from looking more closely at something we thought we already understood.

For decades, physicists have studied a remarkable class of materials called superconductors—materials that can carry electricity with zero energy loss. These materials could one day help power ultra-efficient electronics, quantum computers, and advanced medical technologies.

One of the most widely studied superconductors, niobium diselenide (NbSe₂), seemed straightforward when peeled down to just a few atomic layers. Experiments suggested it behaved like a superconductor with a single energy gap—a fundamental fingerprint that describes how electrons order in pairs, to flow without resistance.

But researchers suspected there was more to the story. The study, led by PhD. student Shahar Simon and MSc. student Maya Klang under the guidance of Prof. Oded Millo, and Prof. Hadar Steinberg of the Racah Institute of Physics and the Center for Nanoscience and Nanotechnology at the Hebrew University of Jerusalem, was published in Physical Review Letters.

Using extremely sensitive tunneling spectroscopy measurements, the team found that the material wasn't behaving like a simple, single-order superconductor at all. Instead, it was hiding two different superconducting orders that interact so strongly they appear as one. The same hidden behavior was also found in another closely related material, TaS₂.

"It's a bit like listening to what sounds like a single singer, only to discover it's actually a perfectly synchronized duet," said the researchers.

The discovery solves a long-standing puzzle. Previous experiments could not fully explain the detailed shape of the superconducting energy spectrum using traditional theories. By applying a more sophisticated model, accounting for the presence of two different superconduting orders, the Hebrew University team was able to accurately explain not only the measurements themselves, but also how the materials respond when exposed to magnetic fields.

The findings also suggest that the thicker, bulk version of NbSe₂ may actually contain three interacting superconducting orders, revealing an even richer picture of how superconductivity works in these materials.

Understanding this hidden complexity could help scientists design and engineer future superconducting devices with greater precision. As researchers work toward technologies such as quantum computers and ultra-efficient electronic devices, knowing exactly how electrons behave inside these materials becomes increasingly important.

 

Quantum materials discovery could advance electronics for extreme environments



University of Arizona researchers demonstrate a potential new use for graphene nanoribbons that could improve semiconductor technologies for fusion energy and space systems



University of Arizona

Ali Habiboglu 

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University of Arizona Provost Postdoctoral Fellow Ali Habiboglu uses a molecular beam epitaxy system to synthesize graphene nanoribbons – a material Zafer Mutlu and collaborators are investigating for use in next-generation radiation-sensing devices and electronics.

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Credit: Photo by Leslie Hawthorne Klingler, University of Arizona Office of Research and Partnerships






TUCSON, Ariz. — University of Arizona researchers have demonstrated a promising new application for graphene nanoribbons, a nanoscale semiconductor material with the potential to withstand extreme environments. The team's findings could help clear a key hurdle to bringing fusion energy to the electric grid.

For the proof-of-concept study, published in the journal ACS Applied Materials & Interfaces, the researchers integrated the nanoribbons, known as GNRs, into semiconductor devices and exposed them to gamma radiation. Their results suggest that the ribbons could serve as radiation sensors for fusion reactors and in deep space, where intense radiation challenges existing technologies and close monitoring of material degradation could help keep critical systems operating reliably.

"The devices survive the exposure and still respond, but their electrical performance changes dramatically," said principal investigator Zafer Mutlu, University of Arizona assistant professor of materials science and engineering in the College of Engineering. "That's exactly the behavior we want from a sensor."

GNR-based sensors could help unlock fusion energy as a clean, near-limitless power source by improving how engineers monitor the condition of a reactor's first wall. This innermost barrier separates the superheated fuel from the reactor structure and gradually degrades under intense radiation, requiring periodic inspection and replacement. Engineers track that damage, but today's silicon-based sensors cannot survive inside the first wall. Instead, they must be placed outside the barrier, forcing reliance on indirect measurements during operation and physical inspection after shutdown.

Because the gamma exposure left the ribbons' atomic framework intact while producing a strong, measurable electrical response, the researchers suggest GNR-based sensors could eventually be engineered to operate closer to the reactor core than today's electronics can survive – potentially reducing costly shutdowns for inspection and maintenance and increasing the amount of time fusion power plants can remain in operation.

"Real-time monitoring is our vision for this project," Mutlu said.

Inside the discovery

While this is the first study of GNRs' response to gamma radiation, they're widely studied as leading candidates for pushing chip technology beyond the limits of silicon. Their microscopic size and durability could improve the speed and energy efficiency of chips used in everything from artificial intelligence systems to smartphones.

Mutlu and eight additional study authors, all from the U of A, synthesized the ribbons from the molecular level before embedding them in common semiconductor devices. They used emerging fabrication techniques Mutlu helped develop to make the ribbons exactly nine atoms wide and one atom thick and about 45 nanometers long on average – tens of thousands of times thinner than a human hair.

The minuscule ribbons behave according to the rules of quantum physics rather than classical physics, Mutlu said. In the absence of radiation, current flows in a well-defined way through GNRs, like the ones used in the study. The researchers' measurements indicate that gamma radiation passing through the surrounding air produces reactive molecules that subtly alter the ribbon edges without changing their overall structure. At this scale, quantum effects amplify the impact of small changes on electrical signal transport through the material.

The researchers propose that the changes trigger a quantum effect called Anderson localization, which traps charge-carrying electrons in place and sharply reduces current, producing the signal of radiation exposure that could provide more precise data for reactor maintenance planning.

Long considered a promising source of large-scale, carbon-free electricity, fusion has

reached key laboratory milestones, including experiments since 2022 that have produced more energy than the lasers delivered to the fuel they consumed, but still faces major engineering barriers. U of A researchers are collaborating with industry on efforts to scale enabling technologies and deliver fusion power to the grid. 

Similar to this fusion application, GNR sensors could provide state-of-health data for space systems – including communications satellites, Earth-observation satellites, and deep-space probes – and identify early signs of radiation-related wear before failures occur.

Pushing materials design at the nanoscale

The next step for Mutlu and his collaborators is to test the same device under different radiation doses. They also plan to explore GNRs of different sizes. After those investigations, Mutlu is confident the synthesis method used in the study will allow researchers to customize new forms of ribbons.

"You can design the material atom by atom, molecule by molecule. You can make it less sensitive, more sensitive, non-sensitive," said Mutlu, whose research has focused on quantum materials and semiconductor devices for more than a decade.

That level of control is important for future space systems, where both electronic components and monitoring devices must operate for long periods under continuous radiation exposure. The same ability to tailor the material at the atomic level could support radiation-resistant semiconductor chips as well as sensors that track system performance over time.

The paper's co-first authors were postdoctoral researcher Kentaro Yumigeta and doctoral student Muhammed Yusufoglu. University Distinguished Professor Jon T. Njardarson's group in the Department of Chemistry and Biochemistry, in the College of Science, synthesized the molecular building blocks for the ribbons. Mutlu's group carried out the nanoribbon synthesis, device fabrication and electrical characterization, and the gamma irradiation experiments were led by materials science and engineering professor Barrett G. Potter and University Distinguished Outreach Professor Kelly Simmons-Potter of electrical and computer engineering.

This research was supported by funding from the Semiconductor Research Corporation and the National Science Foundation.

 

Depoliticization weakens AIDS activism in Brazil



After decades of playing a leading role in health policy, the social movement against the disease is fragmenting and losing momentum




Fundação de Amparo à Pesquisa do Estado de São Paulo






Brazil’s HIV/AIDS response program is considered a success story. As early as 1987, Brazil became the first developing country to guarantee free treatment. The country is also known for its social activism, which helped build the Unified Health System (SUS) and shape public policies based on scientific evidence and human rights. 

Important milestones in the fight against AIDS emerged through the alliance between civil society, public health professionals, and the government, such as universal and free access to antiretroviral drugs and the domestic production of diagnostic tests. One notable decision was the patent waiver for the antiretroviral drug efavirenz in 2007.

However, after decades of success, this leading role has lost momentum. The field of activism, once guided by a certain political consensus, has become fragmented. This is due to the changing profile of people living with HIV (“pauperization” of the epidemic) and the reorientation of health policies, which has also led to a shift in civil society’s priorities. Consequently, anti-AIDS activism in Brazil has become depoliticized. Helena Achcar of the Center for Public Sector Policy and Economics at the Getulio Vargas Foundation (CEPESP-FGV) reached this conclusion in an article published in the journal Sociology of Health & Illness.
 
“The movement’s decline can’t be explained by a lack of funding alone, but above all by the changing profile of activists and the priorities imposed by the pauperization of the epidemic. Also contributing to this trend are technological advances and the growing medicalization of the response to HIV, which favor quick, biomedical solutions at the expense of public health and the fight against inequalities,” Achcar told Agência FAPESP.

“It’s important to emphasize that the idea that AIDS has been resolved is misleading, and therefore activism remains one of the pillars of the Brazilian response,” the researcher adds.

The study, supported by FAPESP, is based on the theory of practice (or field theory) developed by the French sociologist Pierre Bourdieu. 

Achcar examined the demobilization of the AIDS movement in Brazil through four main, interrelated concepts: the social space of struggle and competition among different actors (which Bourdieu calls the field); the actions internalized by movement members (habitus); the economic, social, cultural, and symbolic resources in contention (capital); and the dominant, naturalized discourse governing what is considered legitimate within the field (doxa).

“By analyzing the movement as a social field in which NGOs, networks, and the state compete for power and legitimacy to define legitimate activism, I sought to capture the field’s symbolic and internal dynamics and its interaction with changes in external environments,” she says.

A bit of history

Achcar explains that in the 1980s, leaders such as the sociologist Betinho and the writer and former guerrilla fighter Herbert Daniel (among others) developed a radical, intellectualized, deeply political form of activism. They framed AIDS as an issue of democracy and social justice. This movement originated in the middle class and formed strategic alliances with the public health movement.

However, starting in the 1990s, HIV began to spread among more vulnerable populations with lower levels of education and income. New participants joined the movement with urgent demands for food, housing, and access to basic services. These demands shifted priorities and fragmented the political culture that had been built in previous decades. 

“The thesis I advocate, inspired by Bourdieu, is that we all develop a kind of mental framework over the course of our lives [what Bourdieu calls ‘habitus’]. This habitus shapes our actions and the way we see the world. It isn’t individual but shared by social groups. When the AIDS epidemic began to affect people with a habitus associated with more disadvantaged classes, the political debate within the movement shifted as well, and basic issues such as access to food, housing, and income became central,” Achcar explains. 

Starting in the 2010s, the medicalization of AIDS policies gained momentum. “The ‘end of AIDS’ narrative reduced the disease to a biomedical issue and masked the structural inequalities that many policies and the movement sought to address,” states the researcher.

The study points out that the response to HIV was progressively absorbed by a neoliberal logic that prioritizes rapid biomedical solutions, technical management, and measurable results. “Historically politicized NGOs were pressured to professionalize in order to raise funds, becoming service providers and losing part of their activist capital,” she says.

Another significant change in the external landscape occurred in the late 2000s when Brazil ceased to be a priority for international donors, and when domestic budget cuts reduced opportunities for social participation. “The promise of an end to AIDS through a supposed magic formula reinforced the idea that the epidemic would be resolved solely through medication, downplaying debates about structural inequalities,” the researcher continues. 

Activists interviewed by Achcar describe the current movement as weak and unable to fight as it once did. “Tensions between long-standing NGOs and new identity-based networks have deepened the fragmentation. The former universalist identity that mobilized activism as a whole has given way to disputes over legitimacy and scarce resources,” she says.

She concludes, “This study shows that the future of Brazil’s response to HIV depends on the ability to rebuild alliances, restore the movement’s political character, and address the inequalities that continue to fuel the epidemic.”

About São Paulo Research Foundation (FAPESP)
The São Paulo Research Foundation (FAPESP) is a public institution with the mission of supporting scientific research in all fields of knowledge by awarding scholarships, fellowships and grants to investigators linked with higher education and research institutions in the State of São Paulo, Brazil. FAPESP is aware that the very best research can only be done by working with the best researchers internationally. Therefore, it has established partnerships with funding agencies, higher education, private companies, and research organizations in other countries known for the quality of their research and has been encouraging scientists funded by its grants to further develop their international collaboration. You can learn more about FAPESP at www.fapesp.br/en and visit FAPESP news agency at www.agencia.fapesp.br/en to keep updated with the latest scientific breakthroughs FAPESP helps achieve through its many programs, awards and research centers. You may also subscribe to FAPESP news agency at http://agencia.fapesp.br/subscribe

 

And you thought a smart ring was discreet



Thread-based electronics that conform to the body could point toward softer, less obtrusive health monitors



Tufts University

Thread-based wearable device 

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Flexible organic eutectogel transistors arranged in a complete thread-based circuit. The free-form circuits can easily conform to body contours to monitor health and movement

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Credit: Wenxin Zeng






Imagine using a wearable device that is so thin and discreet that you’d hardly be aware that you were wearing it. Now Tufts engineers have created flexible electronics that could do just that. Made of thread-based integrated circuits that can bend, coil, stretch, and conform to the body’s contours and movements, the devices are designed to exist in free form, sewn into clothing or wrapped around curved and moveable surfaces.

These kinds of devices worn on the body or adhered to the skin could potentially track a wide range of biomarkers or environmental conditions, while AI-driven applications could synthesize the resulting data into useful insights for fitness, healthcare, and recovery from injury or disease.

To accomplish this, Sameer Sonkusale, Jon A. Levy School of Engineering Professor, and his colleagues, including Matt Panzer, E Ink Professor of Engineering, created each of the components of complex integrated circuits—from transistors to sensors—in the form of threads. The devices are described in the journal Applied Materials and Interfaces.

Wearable devices like smartwatches and smart rings are popular—more than a third of U.S. adults use them—and many offer health tracking. Thread-based integrated circuits could help make wearable health monitors more comfortable and discreet, incorporated into clothing, soft interfaces, or skin-contacting threads that move naturally with the body. 

Other health-related applications could be sutures to track wound healing or monitoring for movement indicators of cognitive decline, fall risk for the elderly, and breathing in infants.

“By moving electronics from planar patches to free-form threads, we have opened a path toward wearable bioelectronics that are more like fibers than hardware,” said Sonkusale. “They will be soft, stretchable and able to follow the body’s shape rather than forcing the body to accommodate the device. They could even potentially be used like sutures to monitor processes inside the body.”

The researchers demonstrated circuits capable of amplifying signals from sensitive sensors, and as a proof-of-concept for wearable monitoring, they created a device that can be placed on the temple to detect blinking, and another device near the diaphragm to detect changes in breathing patterns and rates. These demonstrations suggest that the technology could one day support soft wearable systems for monitoring health, stress, and other conditions.

“The technology platform is still in early stages,” said Wenxin Zeng, Ph.D. candidate in electrical engineering at Tufts and lead author of the study, “but we expect to improve the speed and precision of fabrication, and the ability of the thread-based integrated circuits to carry out more complex functions.”

Transformative Materials  

Running throughout the device circuit are thin threads coated with gold. Tiny and entirely flexible transistors—the basis of any digital device—are attached to the thread, which includes a conducting plastic-like material that bridges the gold thread leading into and out of the transistor. The flow of electrons at the transistor can be turned on and off like a spigot, depending on a second current that controls a “gate,” which acts like a valve. 

An important innovation making the thread devices possible is something called a eutectogel. The gel can help create a gap, less than a millimeter, between two ends of the electronic thread where the flow of electrons can be controlled, whether in a thread-based resistor, capacitor, sensor or other component. Others have used hydrogels to connect the wires, which can dry up. In contrast, the eutectogel is stable, soft, and compatible with being in contact on or in the body. 

The eutectogel also gives the transistor a “self-repair” capability. If the gel breaks, the researchers showed that bringing the pieces back together and applying gentle heat can restore its mechanical and electrical function. The thread itself is not repairable if cut, but the gel components can be rejoined.

Unlike traditional integrated circuits that require photolithography—depositing patterned layers of material on a surface—or high temperature processing, no clean room is needed in their fabrication, making the approach more compatible with soft polymers and textile-like materials and making possible development with low-cost manufacturing.

US Federal ginseng rules poorly predict plant health





Yale University






A YSE-led study published in Environmental Research Letters found that current federal rules regulating American ginseng harvest — based on plant age and leaf count — poorly predict the biological traits that matter most for conservation.

Ginseng, a wild plant prized in traditional medicine, can only be legally harvested once it's at least five years old and has three leaves.  However, when researchers measured hundreds of ginseng plants, they found that age was a weak guide to how large a plant's root had grown or how many seeds it could produce. 

The authors say switching to size-based harvest limits could do more to protect ginseng in the wild, while also making the rules easier for harvesters and forest farmers to follow.

The study was led by Karam C. Sheban ’26 PhD, and co-authored by Mark Bradford, the E.H. Harriman Professor of Soils and Ecosystem Ecology, and  Marlyse C. Duguid, the Thomas J. Siccama Senior Lecturer in Field Ecology.

 

#MeToo and the marketplace: Can social reform impact consumer spending?



While the movement heightened intolerance toward toxic behavior, audiences are slower to adopt new gender roles




University of Arizona






Consumers are quick to reject problematic sexual content since the #MeToo movement began in 2018, and new research from the University of Arizona concludes that sentiment has reached their wallets. When small changes can shift millions of dollars at the box office, is it time for Hollywood to rethink its standards?

Nooshin L. Warren, associate professor of marketing at the Eller College of Management, analyzed revenue, casting and audience data from more than 1,500 blockbuster films and tracked depictions of sexual misconduct, female objectification and gender stereotyping in those same movies. She concluded that while #MeToo heightened intolerance toward toxic behavior, audiences are slower to adopt new gender roles.

"Economists see everything as supply and demand," Warren said. "If at any point consumers' perception about a product changes, it can change demand which leads to a change in supply. That means any social movement has the capability to be an invisible hand that disturbs market equilibrium. In this case, we wanted to know whether the #MeToo movement actually accomplished its goals, or was it just loud and generated a lot of buzz in the media?"

Warren conducted her study alongside colleagues from Texas Christian University and the University of Oregon. Their work was published in the Journal of Marketing.

Studying a social movement

Based on a term coined by activist Tarana Burke, #MeToo gained widespread attention after actor Alyssa Milano used the phrase on social media in 2017 to encourage survivors of sexual violence to share their stories. Within a year, the hashtag generated more than 19 million social media posts, sparked discussions and led to legislative changes.

To understand the impact of that campaign, the research team provided definitions of sexual violence, harassment and exploitation as well as gender characteristics like agency and strength to a ChatGPT-assisted review of 1,523 top-grossing films released between 2010 and 2023. The AI program used that information to review each movie on a five-point scale based on media reviews, plot summaries, online discussions across social media and other web sources.

Warren and her colleagues then reviewed, verified and supplemented that information with more than 300,000 keywords generated by the Internet Movie Database that represent the prominent themes in each film. In addition to tracking depictions of sexual harassment and the representation of gender roles, the review also accounted for a variety of factors such as seasonality, theatrical window and related real-world scandals. The team also conducted a demographic study of more than 4,700 U.S. moviegoers to understand which audiences most likely watched a given movie.

The researchers found that even small adjustments in sexual misconduct and gender portrayals in a film could add or subtract between $8 to $13 million in box office revenue. They also discovered that while audiences were less interested in movies that included problematic sexual behavior, public expectations of gender roles seemed to regress after #MeToo.

"When you think about social movements 30 or 40 years ago, people had to gather in the streets and protest. Nowadays, hashtags on social media can generate the same kind of attention," Warren said. "But when your movement generates momentum quickly, you may struggle deciding on a solution. In our study, we interviewed people who told us they don't want to see gender roles defining men and women and that men should be less toxic and kind. But, when we ask them about a movie in which a man cries or a woman is the breadwinner of the family, they weren't interested."

But why the film industry? Warren called the market an ideal testing ground to study the influence of #MeToo for several reasons. While the majority of allegations emerged directly from Hollywood, entertainment has long held a pivotal role in shaping gender norms throughout society. From the perspective of an economist, the industry also contributes more than $600 billion in global annual revenue and provides a strong indication of consumer spending.

The industry also suffers from inherent lag: The long production process prevents short-term adjustments. When #MeToo went viral, producers couldn't rewrite scripts and recast projects; most projects went on as planned. That inflexibility provided a controlled environment to measure how consumer preference shifted in recent years.

Adjusting to new standards

After studying consumer reaction to the #MeToo movement, Warren hopes the general public can better understand their own purchasing habits, and how media and social movements influences their wallet. She added that many industries still rely on gender definitions, whether through books, video games or brands with distinct mascots, and advertising has traditionally relied on gender roles when pushing domestic products.

"Detergent commercials often showed a clueless man, while car companies used a woman behind the wheel to show how simple it was to drive," Warren said. "Today, everything has to change. When I survey my students about these concepts, they feel insulted and they don't react well. While we've come a long way from the advertisements of the '80s, we still have a long way to go."