However, there’s a catch. Before electrons can be accelerated by these shock waves, they need to contain a certain amount of ...

Scientists have come a step closer to understanding how collisionless shock waves—found throughout the universe—are able to ...

Physicists have long-suspected that the building blocks of protons experienced quantum entanglement. Now, researchers have ...

Pioneering researchers of self-generated spin torques have discovered a new one, anomalous Hall torque, that completes a ...

Topological quantum computers a step closer with a new method to 'split' electrons. Electrons, once thought to be indivisible ...

Electron transfer, critical to processes such ... assistant professor of physics and astronomy. "It represents a significant leap forward in our ability to use quantum simulators to investigate ...

Scientists at Brown University have discovered a new class of quantum particles known as fractional excitons, which exhibit ...

In a study, physicists now observed a class of quantum particles called fractional excitons, which behave in unexpected ways and could significantly expand scientists' understanding of the quantum ...

Spin is the intrinsic angular momentum of an electron, and the orbital moment ... Klaus von Klitzing received the Nobel Prize in Physics in 1985 for its detection. The effect is observed when ...

Our data-driven world demands more—more capacity, more efficiency, more computing power. To meet society's insatiable need ...