中文摘要：

The perturbation of a confining trap leads to the collective oscillation of a Bose-Einstein condensate,thereby the propagation of a dark soliton in the condensate is affected.In this study,periodic perturbation is employed to match the soliton oscillation.We find that the soliton dynamics depends sensitively on the coupling between the moving direction of the trap and that of the soliton.The soliton energy/depth evolves periodically,and a relevant shift in the soliton trajectory occurs as compared with the unperturbed case.Overall,the soliton oscillation frequency changes little even if the perturbation amplitude and frequency vary.

英文摘要：

The perturbation of a confining trap leads to the collective oscillation of a Bose-Einstein condensate, thereby the propagation of a dark soliton in the condensate is affected. In this study, periodic perturbation is employed to match the soliton oscillation. We find that the soliton dynamics depends sensitively on the coupling between the moving direction of the trap and that of the soliton. The soliton energy/depth evolves periodically, and a relevant shift in the soliton trajectory occurs as compared with the unperturbed case. Overall, the soliton oscillation frequency changes little even if the perturbation amplitude and frequency vary.