Yunlan Ji, Ji Bian, Min Jiang, Domenico D'Alessandro, Xinhua Peng
Published 2018-10-18Version 1
We derive the explicit solution of the problem of time-optimal control by a common magnetic fields for two independent spin-$\frac{1}{2}$ particles. Our approach is based on the Pontryagin Maximum Principle and a novel symmetry reduction technique. We experimentally implement the optimal control using zero-field nuclear magnetic resonance. This reveals an average gate error of $1\%$ and a $70 \%$ to $80$ $\%$ decrease in the experiment duration as compared to existing methods. This is the first analytical solution and experimental demonstration of time-optimal control in such a system and it provides a route to achieve time optimal control in more general quantum systems.
Algorithms for Quantum Control without Discontinuities; Application to the Simultaneous Control of two Qubits
Exact solutions for time-optimal control of spin I=1 by NMR
Time-optimal Control of Spin Systems
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