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QUANTUM COMPUTATION IN SILICON — DEVICE MODELING, TRANSPORT AND FAULT-TOLERANCE
Preview AbstractThe Kane concept of quantum computation using single phosphorus donors in silicon has revolutionized the way we think about P-doped silicon devices. However, because of the enormous effort required in fabricating such devices using single atom techniques, detailed modeling and assessment of fault-tolerant operation is required to determine and optimize the scalability, and indeed feasibility, of such a vision.
QUANTUM COMPUTATION IN SILICON — DEVICE MODELING, TRANSPORT AND FAULT-TOLERANCE
Preview AbstractThe Kane concept of quantum computation using single phosphorus donors in silicon has revolutionized the way we think about P-doped silicon devices. However, because of the enormous effort required in fabricating such devices using single atom techniques, detailed modeling and assessment of fault-tolerant operation is required to determine and optimize the scalability, and indeed feasibility, of such a vision.