The Einstein–de Haas effect, which links the spin of electrons to macroscopic rotation, has now been demonstrated in a ...

Collective behavior is an unusual phenomenon in condensed-matter physics. When quantum spins interact together as a system, ...

A stable graphene signal suggests some quantum particles can remember past interactions, a key step toward quantum computing.

A supercooled microscopic ferromagnet proves the existence of gyroscopic magnetic behaviour that has been long sought by ...

Quantum materials can behave in surprising ways when many tiny spins act together, producing effects that don’t exist in ...

When quantum spins interact, they can produce collective behaviors that defy long-standing expectations. Researchers have now shown that the Kondo effect behaves very differently depending on spin ...

The Einstein-de Haas effect, which links the spin of electrons to macroscopic rotation, has now been demonstrated in a quantum fluid by researchers at ...

Using a superconducting quantum computer, physicists created a large and complex version of an odd quantum material that has ...

A single molecule can trigger and tune the Kondo effect, challenging long-held physics assumptions and offering new paths for molecular electronics and quantum devices. The Kondo effect occurs when ...

The Dynamical Casimir Effect (DCE) encompasses a striking quantum phenomenon whereby rapid, nonadiabatic modifications of boundary conditions produce pairs of real photons from the quantum vacuum – a ...