Quantum mechanics has revealed that magnetic fields exert profound influences on microscopic systems, modulating quantum states and facilitating emergent phenomena with global technological potential.

Researchers at HZDR managed to generate wave-like excitations in a magnetic disk—so-called magnons—to specifically manipulate a atomic-sized qubits in silicon carbide. This could open new ...

Quantum computers promise to tackle some of the most challenging problems facing humanity today. While much attention has been directed towards the computation of quantum information, the transduction ...

Researchers at HZDR managed to generate wave-like excitations in a magnetic disk – so-called magnons – to specifically manipulate a atomic-sized qubits in silicon carbide. This could open new ...

Researchers have developed a chip-based quantum random number generator that provides high-speed, high-quality operation on a miniaturized platform. This advance could help move quantum random number ...

Scientists have used light to visualize magnetic domains, and manipulated these regions using an electric field, in a quantum antiferromagnet. This method allows real-time observation of magnetic ...

Light beams of varying intensities (yellow cylinders) help visualize magnetic domains (light and dark areas), separated by domain walls (red lines). When something draws us in like a magnet, we take a ...

Molecule-based magnets like vanadium tetracyanoethylene are extremely sensitive to air, impeding their use in practical quantum devices. Researchers coated vanadium tetracyanoethylene with an ...