Spin-based optical quantum gates via Pauli blocking in semiconductor quantum dots

(1) P. Zanardi (1) F. Rossi (1; 2); (2) Physics Department; (3) I. D'Amico; E. Pazy (1) E. Biolatti (2) T. Calarco; Institute for Theoretical Physics; Polytechnical University of Torino (3); P. Zoller (3) ((1) Institute for Scientific Interchange (ISI) Foundation; University of Innsbruck)

arxiv: cond-mat/0109337 · v3 · pith:KF2EWUULnew · submitted 2001-09-19 · ❄️ cond-mat · quant-ph

Spin-based optical quantum gates via Pauli blocking in semiconductor quantum dots

E. Pazy (1) E. Biolatti (2) T. Calarco , (3) I. D'Amico , (1) P. Zanardi (1) F. Rossi (1 , 2) , P. Zoller (3) ((1) Institute for Scientific Interchange (ISI) Foundation , (2) Physics Department , Polytechnical University of Torino (3) , Institute for Theoretical Physics

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University of Innsbruck)

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classification ❄️ cond-mat quant-ph

keywords quantumblockingconditionaldecoherencedotsfastgatespauli

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We present a solid-state implementation of ultrafast conditional quantum gates. Our proposal for a quantum-computing device is based on the spin degrees of freedom of electrons confined in semiconductor quantum dots, thus benefiting from relatively long decoherence times. More specifically, combining Pauli blocking effects with properly tailored ultrafast laser pulses, we are able to obtain sub-picosecond spin-dependent switching of the Coulomb interaction, which is the essence of our conditional phase-gate proposal. This allows us to realize {\it a fast two qubit gate which does not translate into fast decoherence times} and paves the road for an all-optical spin-based quantum computer.

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Spin-based optical quantum gates via Pauli blocking in semiconductor quantum dots

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