Charge-based quantum computing using single donors in semiconductors

(1)University of Melbourne; (2) University of New South Wales; (3) University of Queensland); A. R. Hamilton (2); A. S. Dzurak (2); C. Wellard (1); D. J. Reilly (2); G. J. Milburn (3); L.C.L. Hollenberg (1); R. G. Clark (2) (Centre for Quantum Computer Technology

arxiv: cond-mat/0306235 · v2 · submitted 2003-06-10 · ❄️ cond-mat

Charge-based quantum computing using single donors in semiconductors

L.C.L. Hollenberg (1) , A. S. Dzurak (2) , C. Wellard (1) , A. R. Hamilton (2) , D. J. Reilly (2) , G. J. Milburn (3) , R. G. Clark (2) (Centre for Quantum Computer Technology , (1)University of Melbourne

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(2) University of New South Wales (3) University of Queensland)

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classification ❄️ cond-mat

keywords singleatomsgatequantumqubitsemiconductorsadvancesarchitectures

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Solid-state quantum computer architectures with qubits encoded using single atoms are now feasible given recent advances in atomic doping of semiconductors. Here we present a charge qubit consisting of two dopant atoms in a semiconductor crystal, one of which is singly ionised. Surface electrodes control the qubit and a radio-frequency single electron transistor provides fast readout. The calculated single gate times, of order 50ps or less, are much shorter than the expected decoherence time. We propose universal one- and two-qubit gate operations for this system and discuss prospects for fabrication and scale up.

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Charge-based quantum computing using single donors in semiconductors

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