Quantum materials, which are materials that are made of particles that behave according to the laws of quantum mechanics, have been found to exhibit a phenomenon known as non-local behavior. This behavior has been observed in a variety of quantum materials, including topological insulators and superconductors. Recently, scientists have demonstrated how this non-local behavior can be mimicked in a much simpler system, a classical material made up of a single layer of magnetic atoms.

For the first time, scientists have successfully demonstrated how non-local behavior can be mimicked in a classical material. This discovery could open the door to new materials that have the potential to revolutionize computing and communications technology. The study, published in Nature Materials, shows that a single layer of magnetic atoms can be used to replicate the behavior of a quantum material.

This exciting new research could lead to the development of materials with the ability to replicate the behavior of quantum materials without the need for complex and costly components. This could result in much faster and more powerful computers, as well as better communications technologies. It could also lead to advances in quantum computing and the development of new technologies.

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source: Phys.org