The dynamical behaviors of a dipole Bose-Einstein condensates (BEC), which is stirred by a circular moving Gaussian potential, are numerically investigated using the mean-field theory. In this paper, we assume that the atoms is polarized along the z-axis. Firstly, the stationary state of the system is obtained by solving the quasi-two-dimensional Gross-Pitaevskki equation numerically under periodic boundary conditions. And then, taking the obtained ground state as the initial condition, the dynamic evolution of the dipole BEC system is studied by the time-splitting Fourier spectrum method. Four types of emission, namely, the stable laminar flow, vortex dipoles, Bénard-von Kármán (BvK) vortex street and irregular turbulence, are observed in the wake when the velocity and size of the Gaussian potential change gradually. When the velocity of the Gaussian potential reaches the critical velocity of vortex excitation, vortex pairs with opposite circulation alternately fall off from the surface of the Gaussian potential. Due to the interaction between the vortex dipoles, the dipoles rotate by their own center. Finally, a ring structure will be formed and exist in the wake stably for a long time. With the increase of the velocity of Gaussian potential, the period of dipoles shedding is also shortened. For the appropriate velocity and size of the Gaussian potential, the vortex pairs with same circulations will periodically fall off from the Gaussian potential and stably distributed on the inner and outer rings, forming BvK vortex street. Our caculation reveals that the conditions for forming BvK vortex street when the dipole BEC is stirred with a circular moving potential are very restricted. When the velocity or size of the Gaussian potential continues to increase, the phenomenon of the periodic vortex pairs shedding in the wake of the Gaussian potential will disappear, and the shedding pattern of the dipole BEC becomes irregular. The parameter regiemes of different dipole interactions was obtained by systematic numerical calculation using experimental parameters. The influences of dipole interactions, velocity and size of the Gaussian potential on different emission are discussed. In the end, the physical mechanism of different emission is analyzed by calculating the drag force acting on Gaussian potential.
This manuscript discusses the development trend of the structure and content of historical movels in Europe and America in the new century. The literature in the new century and the literature of the past period, in the development of the form of the biggest difference is in the creation and the criticism of the main line, but also to argue, frequent events, adding a lot of dazzling vice line. The Renaissance literature is another negative of the medieval religious literature, it re-calls for the return of human natural attributes, but in the general negation of the Middle Ages to the sensual, sensual abandon, but also partly absorb the religious literature of fraternity and other rational connotation. With this basis, this paper presents the novel idea on the mentioned issues, which will help us understand the Europe and America in the new century.
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