In 1928, Paul Dirac's relativistic quantum mechanics led to a formal understanding that an electron has two internal quantum mechanical degrees of freedom — electric charge and spin. This spin ...

It might be possible to probe a close analogue of zitterbewegung by recreating the mathematics of Dirac's equation in a quantum wire. Dirac's equation has an infinite number of solutions with ...

In a recent study published in Materials Advances, Ryuhei Naito and colleagues discovered a method enabling selective observation of the Dirac electrons in materials. Using electron spin resonance ...

Dirac electrons develop in certain conditions ... out these electrons for further study through a process called electron ...

Dirac cones, named after the renowned physicist Paul Dirac, are unique features found in the electronic band structures of certain materials, such as graphene and topological insulators. These cones ...

This frustration leads to exotic magnetic properties and the potential for novel quantum states, including quantum spin liquids and topological ... enhancing electron-electron interactions and ...