A research team from Würzburg and Dresden has demonstrated the phenomenon predicted eight years ago. This could make data ...

Quantum tornado in momentum space: Electrons form vortices in the quantum material tantalum arsenide (TaAs). Momentum space ...

Scientists are diving into the deep sea to study one of the universe’s biggest mysteries—quantum gravity. Using KM3NeT, a ...

Researchers from the Chinese Academy of Sciences recently achieved a breakthrough by creating a compact, solid-state laser ...

Physicists at the University of Ottawa add an orbital spin to their laser beams to control the movement of electrons in their setup.

The physics team devised a new method for controlling ionization, but doesn't expect real-world applications in the near ...

Scientists at Princeton University have made a groundbreaking discovery in quantum materials, revealing that electron energy ...

Deep ultraviolet (DUV) lasers, known for their high photon energy and short wavelengths, are essential in various fields such ...

Microsoft's Majorana 1 chip utilizes a fourth state of matter, enhancing qubit stability and paving the way for scalable, ...

Physicists in Germany have led experiments that show the inertia of electrons can form 'tornadoes' inside a quantum semimetal ...

Scientists observed electron swirls in tantalum arsenide, revealing quantum vortex structures in momentum space.