刘学深 scite author profile

The tunneling effect of Bose-Einstein condensate (BEC) in a harmonic trap with a Gaussian energy barrier is studied in this paper. The initial condensate evolves into two separate moving condensates after the tunneling time under certain conditions. The interference pattern between the two moving condensates is given as a comparison and as a further demonstration of the existence of the global phase.

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Dynamics of Bose—Einstein condensate in a harmonic potential and a Gaussian energy barrier

花巍¹,

李彬²,

刘学深³

2011

Chinese Phys. B

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We have studied the dynamics of Bose-Einstein condensate by solving numerically the Gross-Pitaevskii (GP) equation. We examined the periodic behaviour of the condensate in a shifted harmonic potential, and further demonstrated the tunneling effect of a condensate through a Gaussian energy barrier, which is inserted after the condensate has been excited by shifting the harmonic trapping potential to a side. Moreover, it is shown that the initial condensate evolves dynamically into two separate moving condensates after the tunneling time under certain conditions.

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Spontaneous symmetry breaking of a Bose—Fermi mixture in a two-dimensional double-well potential

王元生¹,

颜培根²,

李彬³

et al. 2012

Chinese Phys. B

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We study the spontaneous symmetry breaking of a superfluid Bose—Fermi mixture in a two-dimensional double-well potential. The mixture is described by a set of coupled Gross—Pitaevskii equations. The symmetry breaking phenomenon is demonstrated in the two-dimensional double-well potential in the mixture. The results are summarized in the phase diagrams of the mixture particle numbers, which are divided into symmetric and asymmetric regions by the asymmetry ratios. The dynamical pictures of the spontaneous symmetry breaking induced by a gradual transformation of the single-well potential into a double-well one are also illustrated. The properties of the quantum degenerate mixture are explored using the realistic parameters for a 40K−87Rb system.

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Extension of high-order harmonics and generation of an isolated attosecond pulse in the chirped laser field

2010

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This paper theoretically investigates the high-order harmonic generation cutoff extension using intense few-cycle linearly chirped laser pulses. It shows that the cutoff of the harmonic can be extended remarkably by optimising the chirping parameters. The time-frequency characteristics of high-order harmonics with different chirping parameters are analysed by means of wavelet transform of the dipole acceleration. It also gives out the classical three-step model pictures of electron. By superposing a properly selected range of the harmonic spectrum, it obtains an isolated 65as pulse.

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刘学深

Chaos in a Bose—Einstein condensate

Tunneling of Bose—Einstein condensate and interference effect in a harmonic trap with a Gaussian energy barrier

Dynamics of Bose—Einstein condensate in a harmonic potential and a Gaussian energy barrier

Spontaneous symmetry breaking of a Bose—Fermi mixture in a two-dimensional double-well potential

Extension of high-order harmonics and generation of an isolated attosecond pulse in the chirped laser field

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