In 1879, American physicist Edwin Hall proposed the famous Hall effect, explaining how a voltage is generated across a ...

Berry used mathematical means to investigate what would happen to the neutron if the direction of the magnetic field changed slowly. According to the so-called adiabatic theorem, which was introduced ...

The conventional Hall effect occurs only in electrical conductors ... The work could have potential applications in technologies like quantum rectification, or converting alternating currents ...

An old physical phenomenon, known as the Hall effect, has revealed some new tricks. New findings have potential implications for understanding fundamental physics of quantum materials and ...

This quantum Hall effect cannot be observed in conventional semiconductors above about 30 K because thermal fluctuations wash out the delicate quantum effects that are responsible for it.

In a paper published in the journal Nature Physics, researchers used a superconducting quantum simulator to emulate charged ...

Five eminent speakers, including Nobel laureates and the top Chinese physicist Qi-Kun Xue, share groundbreaking insights at ...

The particular quantum behaviour observed is similar to something called the Quantum Hall effect, where electrons flowing through a two-dimensional material will bend into tight circular paths and ...

This technology makes use of ferromagnetism and quantum tunneling to detect and relay signals to the connected device. Think of it as an upgraded Hall effect joystick. This makes the joysticks ...

At that point, the cloud assumes the frictionless directional propagation mentioned above around its margins, modeling a ...

The conventional Hall effect occurs only in electrical conductors ... The work could have potential applications in technologies like quantum rectification, or converting alternating currents ...