A new review highlights exciting progress in atomically thin quantum materials where light and magnetism work together in ...
Quantum technologies promise revolutionary advances in computing, sensing and information processing. However, controlling ...
Driving an electric current through a molecule can create a magnetic field. Yet in practice, such fields are often too weak ...
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Magnetic quantum material enables one-way electrical transport for future devices
Scientists at Penn State and Saint Louis University have demonstrated that a magnetic quantum ...
Quantum computers still face limits when it comes to storing information. Researchers at ETH Zurich are now turning to ...
The ability to conduct heat is one of the most fundamental properties of matter, crucial for engineering applications. Scientists know well how conventional materials, such as metals and insulators, ...
Research in the lab of UC Santa Barbara materials professor Stephen Wilson is focused on understanding the fundamental physics behind unusual states of matter and developing materials that can host ...
Physicists extended the lifespan of magnons, magnetic waves that could carry quantum information, a hundredfold, a step toward quantum hardware small enough to fit on a chip.
Artist’s impression of the quantum spin Hall effect in a graphene-based spintronic device, integrated in a chip. The blue and red spheres are spin-up and spin-down electrons traveling along the edge ...
For almost a century, physicists have tried to understand why and how materials become magnetic. From refrigerator magnets to magnetic memories, the microscopic origins of magnetism remain a ...
Each oscillator is tiny, just 10 to 20 nanometers wide. There's no external clock running the show. Once the grid gets nudged ...
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