Nonlinear mode coupling and resonant excitations in two-component Bose-Einstein condensates
Ju-Kui Xue, Guan-Qiang Li, Ai-Xia Zhang, and Ping Peng

Nonlinear excitations in two-component Bose-Einstein condensates (BECs) described by two coupled Gross-Pitaevskii equations (GPEs) are investigated analytically and numerically. The beating phenomenon, the higher-harmonic generation and the mixing of the excited modes are revealed by both variational approximation and numerical method. The strong excitations induced by the parametric resonance are also studied by time-periodic modulation for the intercomponent interaction. The resonance conditions in terms of the modulation frequency and the strength of intercomponent interaction are obtained analytically, which are confirmed by numerical method. Direct numerical simulations show that, when the resonance takes place, periodic phase separation and multisoliton configurations (including soliton trains, soliton pairs and multidomain walls) can be excited. In particular, we demonstrate a novel method for formation of multisoliton configurations through parametric resonance in two-component BECs.

© 2008 The American Physical Society.