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Paper detail

Anomalous dynamical evolution and nonadiabatic level crossing in exactly solvable time-dependent quantum systems

The anomalous dynamical evolution and the crossing of nonadiabatic energy levels are investigated for exactly solvable time-dependent quantum systems through a reverse-engineering scheme. By exploiting a typical driven model, we elucidate the peculiarities of its dynamics with anomalous behavior: the evolution of the adiabatic states and of the nonadiabatic ones exhibits opposite behavior with their representative vectors evolving from a parallel state to an antiparallel state: the nonadiabatic level crossing is identified as a necessary consequence since the crossing point corresponds exactly to the perpendicular point of the two vectors in the parametric space. In the light of these results, we show that various driven models with anomalous dynamical evolution can be designed and they offer alternative protocols for the quantum state control.

preprint2019arXivOpen access
Hong CaoShao-Wu YaoLi-Xiang Cen
quant-ph
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Hong CaoShao-Wu YaoLi-Xiang Cen

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