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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 at Nagoya University in Japan harnessed the power of artificial intelligence to unveil a novel approach to comprehend small defects known as dislocations in polycrystalline materials.
A shock wave traveling through a material can create defects known as dislocations – tiny shifts in the material’s crystal that propagate through it, leaving what are known as stacking faults behind.
Tech Xplore on MSN
Neutron diffraction unveils the 'relay' of hardening mechanisms in next-gen superalloys
As the aerospace sector pursues propulsion systems that are cleaner, quieter, and more efficient, materials used in turbine components face increasingly demanding thermal and mechanical environments.
Inside the Findings That Shaped Materials Science takes a closer look at some of those turning points - the ideas, lab ...
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