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Hannover 2016 – scientific programme

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Q: Fachverband Quantenoptik und Photonik

Q 23: Quantum Information: Concepts and Methods IV

Q 23.7: Talk

Tuesday, March 1, 2016, 16:00–16:15, e214

Simultaneous gates in frequency-crowded multilevel systems using fast, robust analytic control shapes — •Lukas S. Theis, Felix Motzoi, and Frank K. Wilhelm — Saarland University, 66123 Saarbrücken, Germany

We present a few-parameter ansatz for pulses to implement simultaneous single-qubit rotations in frequency–crowded multi-level systems. Specifically, we consider a system of two qutrits whose working and leakage transitions suffer from spectral crowding (detuned by δ). In order to achieve precise controllability, we make use of two driving fields (each having two quadratures) at two different tones to simultaneously apply arbitrary combinations of rotations about axes in the X–Y plane to both qubits. Expanding the waveforms in terms of Hanning windows, we show how analytic pulses containing smooth and composite-pulse features can easily achieve gate errors <10−4 and considerably outperform known adiabatic techniques. Moreover, we find a generalization of the WahWah method [Phys. Rev. A 88, 052330 (2013)] that allows precise separate single-qubit rotations for all gate times beyond a quantum speed limit. We find in all cases a quantum speed limit slightly below 2π/δ for the gate time and show that our pulses are robust against variations in system parameters and filtering due to transfer functions, making them suitable for experimental implementations.

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