A team of Japanese researchers has discovered a method to control Kelvin wave excitation in superfluid helium-4. This breakthrough can refine our understanding of how energy moves in quantum fluids, ...

Scientists have created a “giant quantum vortex” that is able to mimic a black hole and could help reveal their mysteries. Research hope to use the experiment – which uses superfluid helium to model ...

Researchers have achieved a groundbreaking milestone in studying how vortices move in these quantum fluids. A new study of vortex ring motion in superfluid helium provides crucial evidence supporting ...

Superfluid helium-3 is a paradigmatic quantum liquid, exhibiting unconventional pairing and a range of distinct superfluid phases. When confined in aerogels, which are highly porous materials, the ...

Superfluids are a fascinating topic in modern physics research. Governed by quantum mechanics and known for their frictionless flow, superfluids have intrigued scientists with their unusual properties ...

Researchers use silicon nanoparticles to help visualize the coalescence of quantized vortices that occur in superfluid helium, which can help improve our understanding of quantum fluids and materials, ...

Superfluids are a fascinating topic in modern physics research. Governed by quantum mechanics and known for their frictionless flow, superfluids have intrigued scientists with their unusual properties ...

Nobel laureate in physics Richard Feynman once described turbulence as "the most important unsolved problem of classical physics." Understanding turbulence in classical fluids like water and air is ...

It may sound unbelievable, but new research suggests that instead of being featureless, dark matter could actually behave like a cosmic superfluid, forming swirling vortex lines and stable rotating ...