Light doesn’t just help plants grow, it also strengthens their internal structure by tightening the connection between tissues. This added rigidity can actually slow growth, revealing a hidden balance between strength and expansion.

Light is widely recognized as a key factor in plant growth, but scientists are still uncovering the details of how it works. Researchers at Osaka Metropolitan University have now identified a previously unknown process that helps explain how light influences plant development.

Light increases adhesion between plant tissues.

Scientists uncovered a hidden state in water that explains its bizarre behavior.

Experiments with a proton beam striking a carbon target have uncovered events that may be due to a short-lived meson residing within a nucleus.

Researchers at Skoltech have developed an ultra-compact electro-optic modulator based on silicon photonics and plasmonics that enables high-efficiency optical signal control within a small device footprint. The development could find applications in optical communication systems, analog-to-digital conversion, as well as in devices for generating and processing ultra-high-frequency signals based on photonic technologies.

The work was published in the journal Light: Advanced Manufacturing.

The proposed device uses a multimode silicon waveguide of about 7 micrometers in width and 220 nanometers in thickness, with a thin layer of indium tin oxide on top.

Researchers have uncovered a counterintuitive phenomenon in collision dynamics: high-speed particles bounce back from wet walls much more strongly than expected. Integrating experimental observations with advanced numerical simulations revealed that increasing the impact speed induces a morphological transition in the post-collision liquid film, shifting it from a bridge to a dome shape. Further, it clarified the relevance of cavitation to such a dramatic change and to the stronger bounce.

The outcomes, published in the International Journal of Multiphase Flow, provide critical guidelines for predicting high-speed particle collisions on wet surfaces and pave the way for safer and optimized designs in applications such as next-generation aerospace and automotive rotors operating at higher speeds.

A new study warns that if satellite operators suddenly lose control during a major disruption, a catastrophic collision in orbit could happen in as little as 2.8 days.

CISA added two actively exploited CVEs to KEV after confirmed attacks, mandating FCEB patching by May 12, 2026.

CVE-2026–3854 (CVSS 8.7) enabled GitHub RCE via git push, risking cross-tenant access to millions of repositories.

Vimeo has disclosed that data belonging to some of its customers and users has been accessed without authorization following the recent breach at the Anodot data anomaly detection company.

The video platform says that the threat actor accessed email addresses for some of its customers, but most of the exposed information included technical data, video titles, and metadata.

“We have identified that, as a result of the Anodot breach, an unauthorized actor accessed certain Vimeo user and customer data. Our initial findings suggest that the databases accessed primarily contain technical data, video titles and metadata, and, in some cases, customer email addresses,” Vimeo states.