Researchers at the University of Waterloo have produced experimental evidence that quantum-level effects can alter the ...

Electrons are tiny and constantly in motion. How they behave in a crystal lattice determines key material properties: electrical conductivity, magnetism, or novel quantum effects. Anyone aiming to ...

Physicists have forced light to behave like electrons trapped in a magnetic field, reproducing the quantum Hall effect with photons for the first time. The experiment, carried out on an optical fiber ...

A new quantum communication method uses the temporal Talbot effect to simplify high-dimensional quantum key distribution.

For more than 40 years, scientists have known that the quantum Hall effect impacts electrons in strong magnetic fields, but it turns out light also follows the fundamental phenomenon.

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 ...

Physicists at UC Santa Barbara have uncovered a new way to manipulate unusual magnetic states by exploiting “frustration” ...

Quantum mechanical effects are known to be easily disrupted by disturbances from the surrounding environment, commonly ...

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

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 new study has revealed how tiny imperfections and vibrations inside a promising quantum material could be used to control an unusual quantum effect, opening new possibilities for smaller, faster and ...