Atomic-scale defects in 2D materials show terahertz spin splitting, pointing to robust spin qubits and single-photon emitters at higher temperatures.
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Scientists turn crystal defects into quantum superhighways for scalable qubits
Quantum engineers have spent years trying to tame the fragility of qubits, only to be thwarted by the tiniest imperfections ...
Solid-state batteries could store more energy and charge faster than today’s batteries, but they tend to crack and fail over ...
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Turning crystal flaws into quantum highways: A new route towards scalable solid-state qubits
Building large-scale quantum technologies requires reliable ways to connect individual quantum bits (qubits) without ...
Scientists from the National University of Singapore (NUS) have discovered that atomic-scale substitutional dopants in ultra-thin two-dimensional (2D) materials can act as stable quantum systems ...
A small Finland-based startup claims to have made a big, solid-state battery breakthrough. Now, the industry is asking for ...
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