173 research outputs found
Soliton localization in Bose-Einstein condensates with time-dependent harmonic potential and scattering length
We derive exact solitonic solutions of a class of Gross-Pitaevskii equations
with time-dependent harmonic trapping potential and interatomic interaction. We
find families of exact single-solitonic, multi-solitonic, and solitary wave
solutions. We show that, with the special case of an oscillating trapping
potential and interatomic interaction, a soliton can be localized indefinitely
at an arbitrary position. The localization is shown to be experimentally
possible for sufficiently long time even with only an oscillating trapping
potential and a constant interatomic interaction.Comment: 19 pages, 11 figures, accepted for publication in J.Phys.
Directional flow of solitons with asymmetric potential wells: Soliton diode
We study the flow of bright solitons through two asymmetric potential wells.
The scattering of a soliton by certain type of single potential wells, e.g.,
Gaussian or Rosen-Morse, is distinguished by a critical velocity above which
solitons can transmit almost completely and below which solitons can reflect
nearly perfectly. For two such wells in series with certain parameter
combinations, we find that there is an appreciable velocity range for which
solitons can propagate in one direction only. Our study shows that this
directional propagation or diode behavior is due to a combined effect of the
sharp transition in the transport coefficients at the critical velocity and a
slight reduction in the center-of-mass speed of the soliton while it travels
across a potential well.Comment: 7 pages, 5 figure
Nonlinear coupling between scissors modes of a Bose-Einstein condensate
We explore the nonlinear coupling of the three scissors modes of an
anisotropic Bose-Einstein condensate. We show that only when the frequency of
one of the scissors modes is twice the frequency of another scissors mode,
these two modes can be resonantly coupled and a down conversion can occur. We
perform the calculation variationally using a gaussian trial wave function.
This enables us to obtain simple analytical results that describe the
oscillation and resonance behaviour of the two coupled modes.Comment: 12 pages, 3 figures, submitted to Phys. Rev.
Kinetic Theory of Collective Modes in Atomic Clouds above the Bose-Einstein Transition Temperature
We calculate frequencies and damping rates of the lowest collective modes of
a dilute Bose gas confined in an anisotropic trapping potential above the
Bose-Einstein transition temperature. From the Boltzmann equation with a
simplified collision integral we derive a general dispersion relation that
interpolates between the collisionless and hydrodynamic regimes. In the case of
axially symmetric traps we obtain explicit expressions for the frequencies and
damping rates of the lowest modes in terms of a phenomenological collision
time. Our results are compared with microscopic calculations and experiments.Comment: Nordita preprint NORDITA-1999/46 C
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