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

By bringing the long-standing and opposing views of quantum mechanics together to form a single cohesive theory, a research ...

Ripples spreading across a calm lake after raindrops fall—and the way ripples from different drops overlap and travel outward—is one image that helps us picture how a quantum computer handles ...

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 ...

Using quantum states for processing information has the potential to swiftly address complex problems that are beyond the reach of classical computers. Over the past decades, tremendous progress has ...

Dynamical quantum phase transitions (DQPTs) extend the paradigm of equilibrium criticality to the temporal evolution of quantum systems. Rather than being driven by static temperature or other ...