Anyons – the particle-like collective excitations that can exist in some 2D materials – tend to bunch together in a two-dimensional conductor. This behaviour, which has now been observed by physicists ...

Scientists at Rice University have discovered that tiny creases in two-dimensional (2D) materials can control electron spin ...

Wrinkles can be an asset—especially for next-generation electronics. Rice University scientists have discovered that tiny ...

The first electron–positron collisions occurred at an upgrade to one of Japan’s premier particle-physics experiments on 26 April. Following six years of work, the start of the SuperKEKB accelerator ...

Might two bent crystals pave the way to finding new physics? The Standard Model of particle physics describes our world at its smallest scales exceptionally well. However, it leaves some important ...

A condition long considered to be unfavorable to electrical conduction in semiconductor materials may actually be beneficial in 2D semiconductors, according to new findings by UC Santa Barbara ...

Research indicates that electron-phonon interactions in atomically thin semiconductors enhance conductivity, paving the way for efficient 2D electronic devices.

09 December 2020 Proton collisions probe the final frontier of the standard model of particle physics The nuclear forces that act on short-lived subatomic particles have been hard to study.

Extreme collisions between neutron stars could create exotic particles beyond the standard model, including axions, the hypothetical particle that comprises dark matter.

Segment 4C: Collisions We differentiate between elastic and inelastic collisions Segment 4C: Collisions In this segment, we differentiate between elastic and inelastic collisions. The conservation ...