Publications

Jacobson, Noah T.; Gamble, John K.; Baczewski, Andrew D.; Witzel, Wayne W.; Montano, Ines M.; Nielsen, Erik N.; Muller, Richard P.; Frees, Adam F.

Abstract not provided.

Witzel, Wayne W.; Carroll, Malcolm; Muller, Richard P.

Abstract not provided.

Physical Review B

Witzel, Wayne W.; Young, Kevin C.; Das Sarma, Sankar D.

Abstract not provided.

Witzel, Wayne W.

Abstract not provided.

Physical Review Letters

Witzel, Wayne W.; Young, Kevin C.

Abstract not provided.

Physical Review Letters

Witzel, Wayne W.; Young, Kevin C.

Abstract not provided.

Jacobson, Noah T.; Witzel, Wayne W.; Nielsen, Erik N.; Carroll, Malcolm

Abstract not provided.

Witzel, Wayne W.; Young, Kevin C.

Abstract not provided.

Witzel, Wayne W.; Young, Kevin C.

Abstract not provided.

Nguyen, Khoi T.; Stevens, Jeffrey S.; Grubbs, Robert K.; Pluym, Tammy P.; Dominguez, Jason J.; Muller, Richard P.; Carroll, Malcolm; Jacobson, Noah T.; Witzel, Wayne W.; Bishop, Nathaniel B.; Tracy, Lisa A.; Carr, Stephen M.; Lu, Tzu-Ming L.; Wendt, J.R.

Abstract not provided.

Jacobson, Noah T.; Witzel, Wayne W.; Nguyen, Khoi T.; Lilly, Michael L.; Carroll, Malcolm

Abstract not provided.

Carroll, Malcolm; Ten Eyck, Gregory A.; Carr, Stephen M.; Witzel, Wayne W.; Dominguez, Jason J.; Rahman, Rajib R.; Nielsen, Erik N.; Lu, Tzu-Ming L.; Lilly, Michael L.; Jacobson, Noah T.

Abstract not provided.

Physical Review A - Atomic, Molecular, and Optical Physics

Carroll, Malcolm; Witzel, Wayne W.

The construction of high-fidelity control fields that are robust to control, system, and/or surrounding environment uncertainties is a crucial objective for quantum information processing. Using the two-state Landau-Zener model for illustrative simulations of a controlled qubit, we generate optimal controls for π/2 and π pulses and investigate their inherent robustness to uncertainty in the magnitude of the drift Hamiltonian. Next, we construct a quantum-control protocol to improve system-drift robustness by combining environment-decoupling pulse criteria and optimal control theory for unitary operations. By perturbatively expanding the unitary time-evolution operator for an open quantum system, previous analysis of environment-decoupling control pulses has calculated explicit control-field criteria to suppress environment-induced errors up to (but not including) third order from π/2 and π pulses. We systematically integrate this criteria with optimal control theory, incorporating an estimate of the uncertain parameter to produce improvements in gate fidelity and robustness, demonstrated via a numerical example based on double quantum dot qubits. For the qubit model used in this work, postfacto analysis of the resulting controls suggests that realistic control-field fluctuations and noise may contribute just as significantly to gate errors as system and environment fluctuations.

Physical Review B

Witzel, Wayne W.; Carroll, Malcolm

Abstract not provided.

Physical Review Letters

Witzel, Wayne W.

Abstract not provided.

Muller, Richard P.; Bishop, Nathaniel B.; Lu, Tzu-Ming L.; Pluym, Tammy P.; Bielejec, Edward S.; Lilly, Michael L.; Landahl, Andrew J.; Carroll, Malcolm; Young, Ralph W.; Nielsen, Erik N.; Rahman, Rajib R.; Witzel, Wayne W.; Gao, Xujiao G.; Tracy, Lisa A.; Bussmann, Ezra B.

Abstract not provided.

Nature

Witzel, Wayne W.

Abstract not provided.

Witzel, Wayne W.; Rahman, Rajib R.; Carroll, Malcolm

Abstract not provided.

Witzel, Wayne W.; Carroll, Malcolm

Abstract not provided.

Witzel, Wayne W.

Abstract not provided.

Grace, Matthew G.; Witzel, Wayne W.; Carroll, Malcolm

Abstract not provided.

Witzel, Wayne W.; Landahl, Andrew J.

Abstract not provided.

Physical Review Letters

Witzel, Wayne W.; Carroll, Malcolm

Abstract not provided.

Witzel, Wayne W.; Carroll, Malcolm

Abstract not provided.

Physical Review B

Witzel, Wayne W.

Abstract not provided.