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Researchers at UCI and Los Alamos National Laboratory have developed a new method to transform everyday materials into conductors suitable for quantum computing. By manipulating the atomic structure through strain, they have created materials with unique quantum properties, marking a significant advancement towards making quantum computers a practical reality. . Credit: SciTechDaily.com
Conventional computers use silicon as a conductor, but silicon has limits. Quantum computers stand to help bypass these limits, and methods like those described in the new study will help quantum computers become an everyday reality. “You can also turn the atomic structure change on or off by controlling the strain, which is useful if you want to create an on-off switch for the material in a quantum computer in the future,” said Jinyu Liu, who is the first author of the paper and a postdoctoral scholar working with Jauregui.
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