Physicists are tapping into the strange world of quantum sensors to revolutionize particle detection in the next generation ...

Quasicrystals, exotic states of matter characterized by an ordered structure with non-repeating spatial patterns, have been ...

In a dramatic leap for astrophysics, Chinese researchers have recreated a key cosmic process in the lab: the acceleration of ...

In the strange and fascinating world of quantum mechanics, particles have long been sorted into just two types: fermions and ...

To learn more about the nature of matter, energy, space, and time, physicists smash high-energy particles together in large ...

Researchers have long known that the shape of nanoparticles depends on the choice of solvent and temperature during their ...

Classical Field Theory and Special Relativity. To introduce the basic building blocks of particle physics models including scalar, fermionic and gauge fields and how to extract predictions from them.

Here we introduce one-component patchy-particle systems that in simulations are able to ... One way to begin to address this question is to use simulations and theory to better understand the ...

The ultimate goal of this research is to confirm the validity of Standard Model down to distances on ... the direct reach of existing high-energy particle colliders. This research was supported ...

The finding — which fits with behaviours predicted by the standard model of particle physics — could help researchers in their struggle to explain why matter is so abundant compared with ...

limiting the use of traditional model-driven filters, such as unscented Kalman filter (UKF) and particle filter (PF). To address the problem we propose a particle-based data-driven nonlinear state ...