A new room-temperature quantum device developed at Stanford uses twisted light and advanced materials to link photons and electrons. Modern quantum computers are typically large, costly systems that ...

Light does not “think” in any human sense. Still, under the right conditions, it can behave in a way that looks uncannily like a memory system.

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

An international group of researchers have investigated the role of memory in quantum systems and dynamics. Their findings ...

Magnetic materials in a quantum spin liquid phase are of great interest in the pursuit of exotic state of matter and quantum ...

Researchers once struggled to understand unconventional solutions developed by artificial intelligence. A new approach leads ...

In the strange world of quantum physics, even the tiniest tweak can unlock outsized rewards.

Quantum tunnelling — when a particle skips through a barrier that classical physics would forbid — happens faster when objects have less energy, find physicists who worked out a way to probe photons ...

A new study examined the mechanism governing the nonlinear Hall effect, paving the way for battery-free devices.

A new study explores how EOS transmits ultrashort laser pulses through crystals that change in response to an applied electric field. This technique allows researchers to accurately capture the shape ...

Quantum physics is usually associated with particle colliders and vacuum chambers, not with the proteins quietly shuttling energy inside our cells. Yet a new line of research argues that protons in ...