QOSTE derives minimal-energy controls for N-level quantum protocols by finding geodesics in the rotating frame, yielding quadratic energy improvement over STA for long times.
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An optimized adiabatic-impulse protocol reduces total time for crossing quantum critical points while preserving Kibble-Zurek scaling and attenuating noise-induced anti-Kibble-Zurek defects in the transverse Ising chain.
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Energy shortcut of N-level quantum protocols by optimal control
QOSTE derives minimal-energy controls for N-level quantum protocols by finding geodesics in the rotating frame, yielding quadratic energy improvement over STA for long times.
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Optimized adiabatic-impulse protocol preserving Kibble-Zurek scaling with attenuated anti-Kibble-Zurek behavior
An optimized adiabatic-impulse protocol reduces total time for crossing quantum critical points while preserving Kibble-Zurek scaling and attenuating noise-induced anti-Kibble-Zurek defects in the transverse Ising chain.