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Materials

Defect engineering for quantum memory chips

13 Jun 2023 Sponsored by Physics World

Available to watch now, Physics World explores the developments in the defect engineering of materials to create chip devices for quantum communications and computing

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Atomic-scale defects in crystals can make excellent quantum memories that can be written and read out using lasers, and could form the basis of future quantum communications and computing systems. Creating these defects “on demand” and engineering memory chips with arrays of defects is very challenging.

In this webinar, Jason Smith will talk about the methods used, the current state of the art, and what we are learning along the way.

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Jason Smith is professor of photonic materials and devices at the University of Oxford, and founding editor-in-chief of the new IOP Publishing journal Materials for Quantum Technology. His research focuses on engineering materials and devices in which photons and electrons communicate in controlled ways, as a means to develop new technologies in sensing, communications and computing.

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