We apply quantum optimal control to enhance the performance of the experimental setup of Ref. [1], speeding up the system dynamics at time scales of the order of the quantum speed limit. We perform a fast crossing of the quantum phase transition the system undergoes under realistic experimental conditions, and we present a new scaling-based strategy to compute optimal pulses for systems at the thermodynamical limit.
Caneva, T., Calarco, T., Montangero, S. (2014). Optimal driving of Bose-Einstein condensates in optical cavities [10.1063/1.4903105].
Optimal driving of Bose-Einstein condensates in optical cavities
Calarco T.;
2014
Abstract
We apply quantum optimal control to enhance the performance of the experimental setup of Ref. [1], speeding up the system dynamics at time scales of the order of the quantum speed limit. We perform a fast crossing of the quantum phase transition the system undergoes under realistic experimental conditions, and we present a new scaling-based strategy to compute optimal pulses for systems at the thermodynamical limit.File in questo prodotto:
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