Quantum Information Processing Using Quantum Dot Spins and Cavity QED
A. Imamog ̄lu(University of California, Santa Barbara), D. D. Awschalom(University of California, Santa Barbara), Guido Burkard(University of Basel), David P. DiVincenzo(IBM Research - Thomas J. Watson Research Center), Daniel Loss(University of Basel), Mark S. Sherwin(University of California, Santa Barbara), Alexandra Small(University of California, Santa Barbara)
Cited by 1,990Open Access
Abstract
The electronic spin degrees of freedom in semiconductors typically have decoherence times that are several orders of magnitude longer than other relevant time scales. A solid-state quantum computer based on localized electron spins as qubits is therefore of potential interest. Here, a scheme that realizes controlled interactions between two distant quantum dot spins is proposed. The effective long-range interaction is mediated by the vacuum field of a high finesse microcavity. By using conduction-band-hole Raman transitions induced by classical laser fields and the cavity-mode, parallel controlled-not operations, and arbitrary single qubit rotations can be realized.
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