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New quantum material puts electrons in a tangle
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Research group detects a quantum entanglement wave for the first time using real-space measurements
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For several years, rare-earth compounds have been gaining the attraction of scientists because of their special quantum properties, which have remained out of the reach of regular compounds until now.
Schematic of how heavy fermions form in twisted graphene sheets. Image Credit: Jose Lado, Aalto University.
One of the most exotic and exceptional properties of such materials is the occurrence of exotic superconducting states, and specifically, the superconducting states needed to construct futuristic topological quantum computers.
For decades, researchers have been aware of these specific rare-earth compounds, called heavy fermion superconductors. However, creating usable quantum technologies out of them has been a crucially open challenge.
Researchers use twisted graphene multilayers to unlock radiation-free quantum technology
Rare-earth compounds have attracted researchers for decades thanks to the unique quantum properties they display, which have so far remained out of reach of everyday compounds. One of the most remarkable and exotic properties of those materials is the emergence of exotic superconducting states, and particularly the superconducting states required to build future topological quantum computers. While these specific rare-earth compounds, known as heavy fermion superconductors, have been known for decades, making usable quantum technologies out of them has remained a challenge because they contain critically radioactive compounds, such as uranium and plutonium, rendering them of limited use in real-world quantum technologies.
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