论文标题
非绝热过渡的时间重新缩放
Time rescaling of nonadiabatic transitions
论文作者
论文摘要
应用时间依赖性驾驶是量子控制的基本方法。驱动的系统显示出各种动力学,因为其时间尺度由于不同量的非绝热过渡而改变。快速前进的缩放理论使我们能够通过施加额外的驾驶在中度时间观察到缓慢(或快速)的时间尺度动力学。在这里,我们讨论了其在非绝热过渡中的应用。我们得出了其他驾驶的数学表达,还找到了计算它的公式。此外,我们指出了对于非绝热过渡的快进缩放理论与通过抵绝热驾驶的绝热性的快捷方式之间的关系。
Applying time-dependent driving is a basic way of quantum control. Driven systems show various dynamics as its time scale is changed due to the different amount of nonadiabatic transitions. The fast-forward scaling theory enables us to observe slow (or fast) time-scale dynamics during moderate time by applying additional driving. Here we discuss its application to nonadiabatic transitions. We derive mathematical expression of additional driving and also find a formula for calculating it. Moreover, we point out relation between the fast-forward scaling theory for nonadiabatic transitions and shortcuts to adiabaticity by counterdiabatic driving.
