Quantum state transfer in spin systems exploits the intrinsic interactions among quantum spins to transmit quantum information without moving physical carriers. In one-dimensional or networked spin ...

Quantum state transfer in superconducting networks involves the coherent exchange of quantum information between spatially separated nodes, typically embodied by superconducting qubits coupled via ...

Quantum technologies, devices that can process, store, or detect information leveraging quantum mechanical effects, could outperform classical devices in some tasks or scenarios. Despite their ...

Physicists at UC Santa Barbara have uncovered a new way to manipulate unusual magnetic states by exploiting “frustration” inside a crystal’s atomic structure. The team discovered a rare system where ...

Many quantum effects can be observed only when a small number of particles is studied—individual atoms, molecules or photons, ...

A team at the University of Chicago has discovered a surprisingly simple way to create powerful quantum states that are normally difficult to produce. By making small adjustments to the energy levels ...

Quantum entanglement: Scientists have detected quantum entanglement in a centimeter-sized crystal. This material, known as a ...

We may never beam ourselves off the planet. But quantum teleportation is poised to bring about a new era of computing—and revolutionize our understanding of the subatomic world. This composite photo ...