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Combining the synergistic control capabilities of modelling and experiments: illustration of finding a minimum time quantum objective

A common way to manipulate a quantum system, for example spins or artificial atoms, is to use properly tailored control pulses. In order to accomplish quantum information tasks before coherence is lost, it is crucial to implement the control in the shortest possible time. Here we report the near time-optimal preparation of a Bell state with fidelity higher than $99\%$ in an NMR experiment, which is feasible by combining the synergistic capabilities of modelling and experiments operating in tandem. The pulses preparing the Bell state are found by experiments that are recursively assisted with a gradient-based optimization algorithm working with a model. Thus, we explore the interplay between model-based numerical optimal design and experimental-based learning control. Utilizing the balanced synergism between the dual approaches should have broad applications for accelerating the search for optimal quantum controls.

preprint2020arXivOpen access
Qi-Ming ChenXiaodong YangChristian ArenzRe-Bing WuXinhua PengIstván PelczerHerschel Rabitz
quant-ph
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Qi-Ming ChenXiaodong YangChristian ArenzRe-Bing WuXinhua PengIstván PelczerHerschel Rabitz

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