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A minimal model for how a cell takes shape from the inside

Researchers at the University of Twente and Utrecht University have packed rigid, rod-shaped particles into soft lipid containers the size of a living cell and watched the container and its contents reshape each other. The ...

When motion prevents order in active matter systems

Pack enough string-like objects together, and they will begin to align with one another. But replace the strings with worms or bacteria living in your gut, and this self-organization becomes much more difficult. A team of ...

Water-wave tweezers steer tiny 'surfers' without touching them

Summer brings with it the sight of surfers moving seamlessly across wave crests, with ocean waters carrying them along coastlines. A team of scientists has now created a similar phenomenon—with small objects rather than surfers—that ...

Molecular glasses solve long-standing Arrhenius paradox

Glasses are non-crystalline but solid states of matter in which molecules and atoms are not arranged into a regular crystal lattice, but rather in a disordered pattern. Glassy materials are widely used in various settings, ...

Data-driven model captures dynamics of turbulence at scale

Whether the dust borne on the violent winds of a tornado or the sugar grains in a swirled cup of coffee, the behavior of particles carried along in turbulence is subject to some similarities—all of them difficult to predict ...

More news

Soft Matter
Visualizing how flutter kick vertical vortices generate propulsion and suppress body sway in swimmers
Soft Matter
Physicists figure out how to reduce formation of 'viscous fingers'
Soft Matter
Overlooked 'history force' may skew particle motion by up to 60% in shaken fluids
General Physics
The structure of water: Entropy determines whether ions stick
Soft Matter
A hidden threshold enables tunable control of liquid crystal helices for energy-efficient technologies
Condensed Matter
Liquid crystals enable on‑demand skyrmion formation at room temperature
General Physics
Tiny forces, big effects: How particle interactions control the flow of soft materials
Condensed Matter
Magnetic checkerboard separates microparticles by size and sends them along different paths
General Physics
Explosive evaporation unlocks new possibilities in 3D printing and chemical analysis
Condensed Matter
Microscopic sensors uncover how liquids turn glassy without structural change
Optics & Photonics
Light-responsive hydrogels enable fast and precise control of soft materials
Soft Matter
Investigating the disordered heart of glass
General Physics
Why do high-speed particles bounce higher in wet collisions?
Soft Matter
Why dolphins swim so fast: The secrets of hidden whirlpools
Soft Matter
Water simulation of famous quantum effect reveals unexpected wave patterns
Soft Matter
Quantum-informed AI improves long-term turbulence forecasts while using far less memory
General Physics
New methods can help study the phenomenon of turbulence
Soft Matter
Self-propulsion or slow diffusion: How bacteria, cells, and colloids respond to stimuli
General Physics
Droplet impacts reveal surprising physics in shear-thickening fluids
General Physics
A 'blob' in a tank is helping scientists tease out the secrets of turbulence

Other news

Agriculture
Global warming, increasing wildfire risk threaten viability of some California winery regions
Space Exploration
NASA's New Horizons spacecraft wakes from its longest hibernation in good health
Plants & Animals
Migratory birds may carry fewer parasites between islands than expected, DNA shows
Polymers
Saturn-ring-like laser emission from chiral polymeric microspheres
Ecology
Where rivers face collapse: New tool shows where conservation dollars can do most good
Astrobiology
Baseline tool could separate alien life signals from geology on ocean worlds
Condensed Matter
Evidence of elusive high-energy gravitons in quantum Hall systems
Astrobiology
Much of Earth's 'space dust' may come from unidentified near-Earth asteroids
Earth Sciences
Satellite record reveals US tidal wetland productivity rose 6% in 20 years
Condensed Matter
Metallic rutile oxides break the rules of cooling
Other
How approaching sounds can warp your perception of time
Astronomy
JWST finds the most distant barred galaxy candidate in the early universe
Quantum Physics
Quantum computers model nine fusion fuel material configurations for first time
Nanophysics
Steering light in a flash: New chip redirects light beams in less than a trillionth of a second
Condensed Matter
Magnetic octupole model captures domain-wall motion in noncollinear antiferromagnets
Analytical Chemistry
AI framework could speed battery, combustion and materials research by automating simulations
Astronomy
'Cosmic wallflowers' may hold the key to the origin of globular clusters
Earth Sciences
Day-night ocean warming helps explain why El Niño outpaces La Niña in models
General Physics
Scientists just measured the smallest possible contacts for future computer chips
Archaeology
Medieval text family trees suggest 60% of works vanished over centuries

Investigating the disordered heart of glass

Recent research led by the University of Trento reveals that fundamental atomic vibrations remain unchanged also in ultra-stable glasses. This discovery advances the decade-long debate on the physics of disorder and opens ...

Why do high-speed particles bounce higher in wet collisions?

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 ...

Why dolphins swim so fast: The secrets of hidden whirlpools

Dolphins are famous for their speed and agility in the water, but what exactly allows them to swim so effectively? Scientists have been asking this question for years, hoping to learn how to optimize propulsion in fluids ...