Demonstration of sufficient control for two rounds of quantum error correction in a solid state ensemble quantum information processor |
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Authors: | Moussa Osama Baugh Jonathan Ryan Colm A Laflamme Raymond |
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Institution: | Institute for Quantum Computing, University of Waterloo, Waterloo, Ontario, Canada. omoussa@iqc.ca |
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Abstract: | We report the implementation of a 3-qubit quantum error-correction code on a quantum information processor realized by the magnetic resonance of carbon nuclei in a single crystal of malonic acid. The code corrects for phase errors induced on the qubits due to imperfect decoupling of the magnetic environment represented by nearby spins, as well as unwanted evolution under the internal Hamiltonian. We also experimentally demonstrate sufficiently high-fidelity control to implement two rounds of quantum error correction. This is a demonstration of state-of-the-art control in solid state nuclear magnetic resonance, a leading test bed for the implementation of quantum algorithms. |
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