A new study has revealed how tiny imperfections and vibrations inside a promising quantum material could be used to control ...

Quantum mechanical effects are known to be easily disrupted by disturbances from the surrounding environment, commonly referred to as noise. To minimize these disturbances, physicists often study ...

Physicists have recreated the Nobel Prize–winning quantum Hall effect using light, revealing that photons can follow the same ...

At temperatures approaching absolute zero, most magnetic materials settle into tidy patterns. Their tiny magnetic moments, or ...

Scientists have pulled off a feat long considered out of reach: getting light to mimic the famous quantum Hall effect. In ...

In many quantum materials—materials with unusual electrical and magnetic properties driven by quantum mechanical effects—electrons can organize themselves into Landau levels. Landau levels are ...

As quantum Hall effects interact with subtle material vibrations, energy conversion occurs naturally, pointing toward ultra-efficient, low-voltage operation ...

An international team of physicists has uncovered a subtle but important twist in how “memory” works in quantum systems.

Quantum effects are fundamental in shaping the behaviour of molecular systems, from modifying reaction pathways to influencing physical properties. At the molecular scale, classical theories are often ...

The Quantum Zeno Effect (QZE) and its extension into quantum Zeno dynamics represent a profound interplay between measurement and quantum evolution. Initially conceived as an inhibition of state decay ...

A wafer-thin flake of bismuth telluride can act a little like a one-way street for electricity, even when the push comes from ...