Thursday, May 3, 2012

1205.0217 (Kaveh Khodjasteh et al.)

Automated Synthesis of Dynamically Corrected Quantum Gates    [PDF]

Kaveh Khodjasteh, Hendrik Bluhm, Lorenza Viola
We address the problem of constructing dynamically corrected gates for non-Markovian open quantum systems in settings where limitations on the available control inputs and/or the presence of control noise make existing analytical approaches unfeasible. By focusing on the important case of singlet-triplet electron spin qubits, we show how ideas from optimal control theory may be used to automate the synthesis of dynamically corrected gates that simultaneously minimize the system's sensitivity against both decoherence and control errors. Explicit sequences for effecting robust single-qubit rotations subject to realistic timing and pulse-shaping constraints are provided, which can deliver substantially improved gate fidelity for state-of-the-art experimental capabilities.
View original: http://arxiv.org/abs/1205.0217

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