Last update: Mar 27, 2025

Polymerlike worms wriggle their way through mazes

Soft Matter news

Polymerlike worms wriggle their way through mazes

In a crowded room, we naturally move slower than in an empty space. Surprisingly, worms can show the exact opposite behavior: In an environment with randomly scattered obstacles, they tend to move faster when there are more ...

Soft Matter

Mar 27, 2025

Hypersonic shock waves: 3D simulations expose new flow disturbances

At hypersonic speeds, complexities occur when the gases interact with the surface of the vehicle, such as boundary layers and shock waves. Researchers in the Department of Aerospace Engineering at The Grainger College of ...

General Physics

Mar 26, 2025

Quantum computing tackles classical fluid dynamics challenges

Researchers at the Department of Energy's Oak Ridge National Laboratory have tested a quantum computing approach to an old challenge: solving classical fluid dynamics problems.

Soft Matter

Mar 25, 2025

Engineers redefine how heat transfers on advanced surfaces

When University of Texas at Dallas researchers tested a new surface that they designed to collect and remove condensates rapidly, the results surprised them. The mechanical engineers' design collected more condensates, or ...

Condensed Matter

Mar 24, 2025

What's behind the 'pop and slosh' when opening a swing-top bottle of beer?

In a fun experiment, Max Koch, a researcher at the University of Göttingen in Germany—who also happens to be passionate about homebrewing—decided to use a high-speed camera to capture what occurs while opening a swing-top ...

General Physics

Mar 18, 2025

119

Supercritical water's structure decoded: Analysis finds no molecular clusters, just fleeting bonds

Researchers at Ruhr University Bochum, Germany, have shed light on the structure of supercritical water. In this state, which exists at extreme temperatures and pressures, water has the properties of both a liquid and a gas ...

Soft Matter

Mar 17, 2025

From order to chaos: Understanding the principles behind collective motion in bacteria

The collective motion of bacteria—from stable swirling patterns to chaotic turbulent flows—has intrigued scientists for decades. When a bacterial swarm is confined in small circular space, stable rotating vortices are ...

General Physics

Mar 17, 2025

Preventing freezer bottle explosions: New insights into ice crystallization and pressure

Have you ever left a bottle of liquid in the freezer, only to find it cracked or shattered? To save you from tedious freezer cleanups, researchers at the University of Amsterdam have investigated why this happens, and how ...

General Physics

Mar 14, 2025

Water movement on surfaces makes more electric charge than expected

Researchers from RMIT University and the University of Melbourne have discovered that water generates an electrical charge up to 10 times greater than previously understood when it moves across a surface.

Condensed Matter

Mar 11, 2025

Novel technique manipulates water waves to precisely control floating objects

A team of international scientists co-led by Nanyang Technological University, Singapore (NTU Singapore) have discovered a way to manipulate water waves, allowing them to trap and precisely move floating objects—almost ...

Soft Matter

Mar 11, 2025

A pinch of salt can steer colloids for improved water purification and drug delivery

The ability to better steer particles suspended in liquids could lead to better water purification processes, new drug delivery systems, and other applications. The key ingredient, say Yale researchers, is a pinch of salt.

Soft Matter

Mar 6, 2025

From classical to quantum: Navier–Stokes equations adapted for 1D quantum liquids

Although Navier–Stokes equations are the foundation of modern hydrodynamics, adapting them to quantum systems has so far been a major challenge. Researchers from the Faculty of Physics at the University of Warsaw, Maciej ...

Soft Matter

Mar 4, 2025

181

High-speed cameras capture hot droplets bouncing across a cool pan

When a droplet of water falls on a hot pan, it dances across the surface, skimming on a thin layer of steam like a tiny hovercraft; this is known as the Leidenfrost effect. But now, researchers know what happens when a hot ...

Soft Matter

Mar 3, 2025

Bubbles that break rules: A fluid discovery that defies logic

A team led by researchers at UNC-Chapel Hill have made an extraordinary discovery that is reshaping our understanding of bubbles and their movement. Picture tiny air bubbles inside a container filled with liquid. When the ...

General Physics

Feb 25, 2025

108

Scientists map elusive liquid-liquid transition point using deep neural network

A new Nature Physics study has shed light on the long-hypothesized liquid-liquid critical point where water simultaneously exists in two distinct liquid forms, opening new possibilities for experimental validation.

General Physics

feature

Feb 22, 2025

117

Ultrasound-activated microbubbles form high-speed jets for drug delivery

ETH Zurich researchers have investigated how tiny gas bubbles can deliver drugs into cells in a targeted manner using ultrasound. For the first time, they have visualized how tiny cyclic microjets liquid jets generated by ...

Soft Matter

Feb 21, 2025

127

High-speed videos show what happens when a droplet splashes into a pool

Rain can freefall at speeds of up to 25 miles per hour. If the droplets land in a puddle or pond, they can form a crown-like splash that, with enough force, can dislodge any surface particles and launch them into the air.

Soft Matter

Feb 21, 2025

Study unveils new extrusion-induced instabilities in viscoelastic materials

Soft viscoelastic solids are flexible materials that can return to their original shape after being stretched. Due to the unique properties driving their deformation, these materials can sometimes behave and change shape ...

General Physics

feature

Feb 18, 2025

Physicists model how amorphous solids lose their stability

Why do avalanches start to slide? And what happens inside the "pile of snow?" If you ask yourself these questions, you are very close to a physical problem. This phenomenon not only occurs on mountain peaks and in snow masses, ...

Condensed Matter

Feb 17, 2025

Generating record-speed waves on extremely water-repellent surfaces

Ripples, like ones produced by raindrops falling in a puddle, are also called capillary waves. Studied since antiquity, they have garnered considerable interest in modern science due to their ability to reveal information ...

General Physics

Feb 13, 2025

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