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 ...
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Neutron diffraction unveils the 'relay' of hardening mechanisms in next-gen superalloys

Nickel-cobalt (Ni-Co)-based superalloys are leading candidates for advanced turbine disks; however, their strength relies ...
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AI Reveals New Path to Control Dislocations in Everyday Materials

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.
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Crystallography: A discovery that transformed materials science

Inside the Findings That Shaped Materials Science takes a closer look at some of those turning points - the ideas, lab ...
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How propagating dislocations leave stacking faults in a material (IMAGE)

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.