Discovery reverses direction of turbulent energy flow

3 Mwezi wa sita, 2026

Imeripotiwa na AI

Researchers have found a way to alter the direction of energy flow in turbulence, challenging a theory established in 1941. The work, conducted at the University of Pittsburgh with Italian collaborators, was published in Science Advances in 2025.

The study shows that energy in turbulent flows does not always follow the long-predicted path from larger to smaller scales in three-dimensional settings. Led by assistant professor Lei Fang, the team demonstrated that tensor geometry can redirect this flow in either direction. Experiments used a thin layer of water driven by electromagnetic forces, with tracer particles to track movement. Results matched simulations and confirmed that alignment of forces can change energy transfer. Applications may include better dispersion of coastal contaminants and improved mixing in microfluidic medical devices. The framework could also aid climate models by accounting for shifts in ocean and atmospheric energy flows.

Makala yanayohusiana

Lab scene depicting contactless magnetic friction discovery: hovering metallic blocks with magnetic fields and graphs breaking Amontons' law.

Researchers discover contactless magnetic friction

22 Mwezi wa tatu, 2026 Imeripotiwa na AI Picha iliyoundwa na AI

Scientists at the University of Konstanz have identified a new type of sliding friction that occurs without physical contact, driven by magnetic interactions. This phenomenon breaks Amontons' law, a 300-year-old physics principle, by showing friction peaks at certain distances rather than increasing steadily with load. The findings appear in Nature Materials.

Scientists discover internal winds in cells linked to cancer spread

Researchers at Oregon Health & Science University have identified hidden fluid flows inside cells that rapidly transport proteins to the leading edge, challenging traditional views of cellular movement. The discovery, made during a classroom experiment, could explain why some cancer cells spread aggressively. The findings appear in Nature Communications.

Physicists solve plasma asymmetry mystery in tokamaks

2 Mwezi wa nne, 2026 Imeripotiwa na AI

Researchers at the Princeton Plasma Physics Laboratory have identified plasma rotation as the key factor explaining why particles in fusion tokamaks strike one side of the exhaust system more than the other. Their simulations, which matched real experiments, combined rotation with sideways drifts. The discovery could improve designs for future fusion reactors.

Teknolojia

Researchers uncover new oscillation states in tiny magnetic vortices

Sayansi

Physicists discover transdimensional quantum state in carbon material

Sayansi

Researchers create exotic quantum states with timed magnetic fields

Peking university physicists unveil narwhal waves for light confinement

Researchers at Peking University have discovered narwhal-shaped wavefunctions that trap light at scales far smaller than previously possible using only dielectric materials. The breakthrough, detailed in a 2025 paper, avoids the energy losses common in metal-based approaches. It opens paths to more efficient photonic devices and advanced imaging.

Study links fundamental constants to life through liquid flow

8 Mwezi wa tano, 2026 Imeripotiwa na AI

A new analysis from Queen Mary University of London proposes that the universe's physical constants occupy a narrow range allowing liquids to flow properly inside living cells.

Jumamosi, 6. Mwezi wa sita 2026, 08:43:04