In a spinor-dipolar Bose–Einstein condensate of europium atoms, near-zero magnetic fields allow dipole–dipole interactions to drive spin relaxation, producing circulating flow in the quantum fluid.

Physicists have identified a new superfluid phase in a class of quantum systems that, until recently, looked too unstable and lossy to host such delicate order. Instead of destroying quantum coherence ...

In a major breakthrough, scientists have observed electrons in graphene flowing like a nearly frictionless liquid, defying a core law of physics. This exotic quantum state not only reveals new ...

In a new study published in Nature Physics, researchers have demonstrated that quantum light, particularly bright squeezed vacuum (BSV), can drive strong-field photoemission at metal needle tips.

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. For the test problem, ...

A new quantum algorithm ran a 15-step nonlinear fluid simulation around a solid obstacle on real quantum hardware, the most physically complex publicly documented demonstration of its kind. The ...

HELSINKI, FINLAND, April 2, 2026 /EINPresswire.com/ — Researchers from Quanscient, a leader in cloud-based multiphysics simulation technology and quantum algorithms ...

Researchers from quantum computing companies Quanscient Oy and Haiqu Inc. today announced that they have developed a new quantum computing algorithm designed to make computational fluid dynamics ...

Quantum turbulence The swirling patterns in Vincent van Gogh’s “The Starry Night” can help us visualize the quantum Kelvin-Helmholtz instability (KHI). The central spiral and surrounding stars and ...

The Einstein-de Haas effect has been observed in a quantum fluid, showing that changes in magnetization transfer angular momentum from atomic spins to collective motion. (Nanowerk News) In 1915, ...