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, ...

Physicists in Germany have led experiments that show the inertia of electrons can form 'tornadoes' inside a quantum semimetal. It's almost impossible for electrons to sit still, and their motions can ...

Within an international collaboration, an experimental research team of LENS investigated vortex dynamics in strongly ...

A team of researchers has designed a theoretical model for a topological quantum battery capable of long-distance energy transfer and immunity to dissipation. By exploiting topological properties in ...

Scientists experimentally confirm electron vortices in momentum space, a quantum phenomenon that could enable efficient, low-energy quantum technologies. (Nanowerk News) A breakthrough that’s turning ...

From left, postdoctoral researcher Yiming Xing, Professor Wei Guo, and graduate student Yousef Alihosseini at the National High Magnetic Field Laboratory. The researchers injected tiny frozen ...

Quantum dynamics provides the theoretical framework for understanding the evolution of quantum systems, wherein the effects of uncertainty and nonlinearity create rich, complex behaviours. Integral to ...

For more than 50 years, scientists have dreamed of seeing the hidden patterns that govern the motion of nonlinear waves—the unpredictable ripples that shape tsunamis, tides, and turbulent flows. Now, ...

Researchers from Würzburg have experimentally demonstrated a quantum tornado for the first time by refining an established method. In the quantum semimetal tantalum arsenide (TaAs), electrons in ...