2,783 research outputs found
On the shape of vortices for a rotating Bose Einstein condensate
For a Bose-Einstein condensate placed in a rotating trap, we study the
simplified energy of a vortex line derived in Aftalion-Riviere Phys. Rev. A 64,
043611 (2001) in order to determine the shape of the vortex line according to
the rotational velocity and the elongation of the condensate. The energy
reflects the competition between the length of the vortex which needs to be
minimized taking into account the anisotropy of the trap and the rotation term
which pushes the vortex along the z axis. We prove that if the condensate has
the shape of a pancake, the vortex stays straight along the z axis while in the
case of a cigar, the vortex is bent
Obtaining the Weyl tensor from the Bel-Robinson tensor
The algebraic study of the Bel-Robinson tensor proposed and initiated in a
previous work (Gen. Relativ. Gravit. {\bf 41}, see ref [11]) is achieved. The
canonical form of the different algebraic types is obtained in terms of
Bel-Robinson eigen-tensors. An algorithmic determination of the Weyl tensor
from the Bel-Robinson tensor is presented.Comment: 21 page
Identidad personal y mundos cinematográficos distópicos
Hablar de identidad personal y mundos fílmicos supone hablar de la \"referencia\" en las ficciones y de la recepción y apropiación personal, no sólo intelectual, de esas ficciones. Este estudio considera la \"refiguración\" personal de las ficciones según la hermenéutica de Paul Ricoeur, aludiendo a tres películas con mundos distópicos: Blade Runner, Brazil, y Truman Show. El autor entiende que cabe aceptar como \"refiguración\" un momento personal que implica dos cosas: la \"comprensión\" intelectual –técnica– de un texto, y la \"aplicación\" vital del sentido de ese texto por parte de una persona. Sabiendo que ambas operaciones deben articularse sin ser cronológicamente distintas
Three-dimensional vortex configurations in a rotating Bose Einstein condensate
We consider a rotating Bose-Einstein condensate in a harmonic trap and
investigate numerically the behavior of the wave function which solves the
Gross Pitaevskii equation. Following recent experiments [Rosenbuch et al, Phys.
Rev. Lett., 89, 200403 (2002)], we study in detail the line of a single
quantized vortex, which has a U or S shape. We find that a single vortex can
lie only in the x-z or y-z plane. S type vortices exist for all values of the
angular velocity Omega while U vortices exist for Omega sufficiently large. We
compute the energy of the various configurations with several vortices and
study the three-dimensional structure of vortices
Quantum chaos in an ultrastrongly coupled bosonic junction
The semiclassical and quantum dynamics of two ultrastrongly coupled nonlinear resonators cannot be explained using the discrete nonlinear Schrödinger equation or the Bose-Hubbard model, respectively. Instead, a model beyond the rotating wave approximation must be studied. In the semiclassical limit this model is not integrable and becomes chaotic for a finite window of parameters. For the quantum dimer we find corresponding regions of stability and chaos. The more striking consequence for both semiclassical and quantum chaos is that the tunneling time between the sites becomes unpredictable. These results, including the transition to chaos, can be tested in experiments with superconducting microwave resonators
Split vortices in optically coupled Bose-Einstein condensates
We study a rotating two-component Bose-Einstein condensate in which an
optically induced Josephson coupling allows for population transfer between the
two species. In a regime where separation of species is favored, the ground
state of the rotating system displays domain walls with velocity fields normal
to them. Such a configuration looks like a vortex split into two halves, with
atoms circulating around the vortex and changing their internal state in a
continuous way.Comment: 4 EPS pictures, 4 pages; Some errata have been corrected and thep
resentation has been slightly revise
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