The observation of the dynamic localization in shaken optical lattices is studied theoretically. We focus on the accessibility to detect the dynamic localization through the miniband formed by the dipole-forbidden transition ${}^1{S}_0$-${}^3{P}_0$ of ultracold ⁸⁷Sr atoms loaded in shaken optical lattices. Particularly, we propose an easily-manipulated shaking method, and present the corresponding effective time-periodic field for this shaking protocol in theory. The detailed experimental conditions to observe the dynamic localization are calculated for different shaking methods. By careful comparisons with other two traditional shaking protocols, we conclude that the new method is totally realizable in addition to easily-manipulated in such system.

从理论上研究了振动光晶格中动态局域化的观察。我们专注于通过偶极子禁止跃迁形成的微带检测动态定位的可及性${}^1{秒}_0$——${}^3{磷}_0$加载在振动光学晶格中的超冷⁸⁷ Sr 原子。特别是，我们提出了一种易于操作的振动方法，并在理论上为该振动协议提供了相应的有效时间周期场。针对不同的振动方法计算了观察动态定位的详细实验条件。通过与其他两种传统振动协议的仔细比较，我们得出结论，除了在此类系统中易于操作外，新方法是完全可以实现的。