Li Feng-Bo scite author profile

Li Feng-Bo

2Publications

4Citation Statements Received

54Citation Statements Given

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Zhejiang Normal University

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Three-dimensional Bose—Einstein condensate vortex solitons under optical lattice and harmonic confinements

Wang¹,

Feng-De²,

Feng-Bo

2013

Chinese Phys. B

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We predict three-dimensional vortex solitons in a Bose-Einstein condensate under a complex potential, which is the combination of a two-dimensional parabolic trap along the transverse radial direction and a one-dimensional optical-lattice potential along the z axis direction. The vortex solitons are built in the form of a layer-chain structure made of several fundamental vortices along the optical-lattice direction. This has not been reported before in the three-dimensional Bose-Einstein condensate. By using a combination of the energy density functional method with direct numerical simulation, we find three-dimensional vortex solitons with topological charges χ = 1, χ = 2, and χ = 3. Moreover, the macroscopic quantum tunneling and chirp phenomena of the vortex solitons are shown in the evolution. Therein, the occurrence of macroscopic quantum tunneling provides the possibility for the experimental realization of quantum tunneling. Specifically, we successfully manipulate the vortex solitons along the optical lattice direction. The stability limits for dragging the vortex solitons from an initial fixed position to a prescribed location are further pursued.

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Dynamics of analytical three-dimensional solutions in Bose-Einstein condensates with time-dependent gain and potential

Feng-De

Song

et al. 2012

Phys. Rev. E

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Using the F-expansion method we systematically present exact solutions of the three-dimensional nonlinear generalized Gross-Pitaevskii equation, with time-varying gain or loss, in both attractive and expulsive harmonic confinement regimes. This approach allows us to obtain solitons for a large variety of solutions depending on the time-varying potential and the gain or loss profiles. The dynamics of these matter waves, including quasibreathing solitons, double-quasibreathing solitons, and three-quasibreathing solitons, is discussed. The explicit functions that describe the evolution of the amplitude, width, and trajectory of the soliton's wave center are presented exactly. It is demonstrated that an arbitrary additional time-dependent gain function can be added to the model to control the amplitude and width of the soliton and the nonlinearity without affecting the motion of the solitons' wave center. Additionally, a number of exact traveling waves, including the Faraday pattern formation, have been found. The obtained results may raise the possibility of relative experiments and potential applications.

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Li Feng-Bo

Three-dimensional Bose—Einstein condensate vortex solitons under optical lattice and harmonic confinements

Dynamics of analytical three-dimensional solutions in Bose-Einstein condensates with time-dependent gain and potential

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