摘要
A systematic study of the chaotic synchronization of Bose-Einstein condensed body is performed using linear cou- pling method based on Lyapunov stability theory, Sylvester's criterion, and Gerschgorin disc theorem. The chaotic synchro- nization of Bose-Einstein condensed body in moving optical lattices is realized by linear coupling. The relationship be- tween the synchronization time and coupling coefficient is obtained. Both the single-variable coupling and double-variable coupling are effective. The results of numerical calculation prove that the chaotic synchronization of double-variable cou- pling is faster than that of single-variable coupling and small coupling coefficient can achieve the chaotic synchronization. Weak noise has little influence on synchronization effect, so the linear coupling technology is suitable for the chaotic synchronization of Bose-Einstein condensate.
A systematic study of the chaotic synchronization of Bose-Einstein condensed body is performed using linear cou- pling method based on Lyapunov stability theory, Sylvester's criterion, and Gerschgorin disc theorem. The chaotic synchro- nization of Bose-Einstein condensed body in moving optical lattices is realized by linear coupling. The relationship be- tween the synchronization time and coupling coefficient is obtained. Both the single-variable coupling and double-variable coupling are effective. The results of numerical calculation prove that the chaotic synchronization of double-variable cou- pling is faster than that of single-variable coupling and small coupling coefficient can achieve the chaotic synchronization. Weak noise has little influence on synchronization effect, so the linear coupling technology is suitable for the chaotic synchronization of Bose-Einstein condensate.
基金
supported by the Industrial Technology Research and Development Special Project of Jilin Province,China(Grant No.2013C46)
the Natural Science Foundation of Jilin Province,China(Grant No.20101510)
