Alongside traditional estates, we now leave behind digital remains after we die, from social media accounts and emails to AI-generated recreations of ourselves. Our digital legacies are creating new and potentially troubling questions about autonomy and dignity after death. Dr. Edina Harbinja, Associate Professor of Law at the University of Birmingham, is spearheading a pioneering initiative to modernize European law to respond to novel questions about access, inheritance and privacy. The new model laws Dr. Harbinja is creating will be the first of their kind and will set the standard for how digital succession is regulated around the world. [...]

Smooth everyday services, a safe environment, and small, friendly encounters with locals are key factors that increase the happiness of international students in Finland. This is shown by a recent study conducted at the University of Oulu Business School, Finland, which followed the well-being of international exchange students over several months. [...]

The application of modulated UV-C light to guavas—emitted in pulses or cycles rather than continuously—combated anthracnose. This fungal disease is caused by microorganisms belonging to the Colletotrichum gloeosporioides complex and triggers dark lesions on the fruit after harvest, reducing its shelf life. An article on the technique was published in the journal Horticulturae. [...]

Beyond societal concerns relating to the environment, animal welfare and human health, several consumer surveys indicate that the decline in beef consumption in France is also linked to its relatively high price, which does not always reflect its eating quality. [...]

Artificial intelligence has attained an impressive series of feats—solving problems from the International Math Olympiad, conducting encyclopedic surveys of academic literature, and even finding solutions to some longstanding research questions. Yet these systems largely remain unable to match top experts in the conceptual frontiers of research math. Have reports of AI replacing mathematicians been greatly exaggerated? [...]

A possible alternative to active debris removal (ADR) by laser is ablative propulsion by a remotely transmitted electron beam (e-beam). The e-beam ablation has been widely used in industries, and it might provide higher overall energy efficiency of an ADR system and a higher momentum-coupling coefficient than laser ablation. However, transmitting an e-beam efficiently through the ionosphere plasma over a long distance (10 m–100 km) and focusing it to enhance its intensity above the ablation threshold of debris materials are new technical challenges that require novel methods of external actions to support the beam transmission. [...]

Since the beginning of January, an unusually long period of easterly winds has caused the average water level in the Baltic Sea to fall to a historic low. Measurements at the Swedish Landsort-Norra gauge show values that are the lowest since records began in 1886. Researchers at the Leibniz Institute for Baltic Sea Research Warnemünde (IOW) are currently monitoring this development very closely, as it represents a rare oceanographic situation that could lead to a large inflow of saltwater from the North Sea into the Baltic Sea. An inflow of this kind could significantly affect the physical and chemical conditions in the deep basins of the central Baltic Sea. [...]

Scientists at the Department of Energy's Oak Ridge National Laboratory have developed software that reduces the time needed for a key task in the development of custom microbes from a week to just hours. The new tool cracks a key defense mechanism of microorganisms, expediting the creation of microbes with desired traits for the production of new biofuels and other valuable products for the bioeconomy. [...]

This Feb. 4, 2026, image from NASA's Solar Dynamics Observatory (SDO) captures a strong solar flare erupting from the star. Solar flares are powerful bursts of energy that can, along with other types of solar eruptions, impact radio communications, electric power grids, navigation signals, and pose risks to spacecraft and astronauts. The flare pictured was classified as an X4.2 flare. X-class denotes the most intense flares, while the number provides more information about its strength. [...]

Polymer micelles are tiny, self-assembled particles that are revolutionizing the landscape of drug delivery and nanomedicine. They form when polymer chains containing both hydrophilic and hydrophobic segments organize into nanoscale spheres in liquid solutions; these structures can trap and hold drugs that are otherwise difficult to dissolve. [...]

In her 1962 book, "Silent Spring," American biologist Rachel Carson revealed that DDT, a widely used pesticide at the time, was responsible for the mass death of birds, including the iconic bald eagle. One reason was that the pesticide made eggshells thinner, causing mothers to break them when sitting on them to incubate. Silent Spring is considered the founding work of the modern environmental movement. [...]

Scientists from Tokyo Metropolitan University have uncovered how fertilized rice seeds begin to divide and establish their "body axis." Using a new imaging method, they discovered that while the first cell divides in an asymmetric way initially, this is followed by random growth and the apparently "collective" determination of a body axis. This is a significant break with known pathways, a rare glimpse into the birth and growth of plant embryos. [...]

Under the leadership of the University of Bonn, a research team led by Prof. Dr. Pavel Kroupa from the Helmholtz Institute for Radiation and Nuclear Physics has discovered that galaxy clusters are about twice as heavy as previously assumed. The additional mass comes mainly from neutron stars and stellar black holes and also explains the observed quantities of heavy elements. [...]

Can we use nothing more than sunlight and inexpensive materials to produce clean hydrogen fuel while also removing toxic pollutants from water? That question shaped our recent work with γ-In2S3, a semiconductor that has intrigued researchers for years but still holds untapped potential. By making subtle changes at the atomic scale, we discovered that we could significantly enhance its performance under visible light without adding noble metals or forming complex heterojunctions. [...]

Cornell researchers have discovered a new way cells regulate how they respond to stress, identifying an interaction between two proteins that helps keep a critical cellular recycling system in balance. The findings show that a protein called SHKBP1 regulates another protein, p62, which plays a key role in clearing damaged cell components and activating antioxidant defenses. By helping maintain this balance, SHKBP1 allows cells to respond appropriately to stress—a process that can break down in diseases such as cancer and neurodegenerative disorders. [...]