Superfluid vortex multipoles and soliton stripes on a torus

@article{DAmbroise2022SuperfluidVM,
  title={Superfluid vortex multipoles and soliton stripes on a torus},
  author={Jennie D’Ambroise and R. Carretero-Gonz'alez and Peter Schmelcher and P. G. Kevrekidis},
  journal={Physical Review A},
  year={2022}
}
J. D’Ambroise, R. Carretero-González, P. Schmelcher, 4 and P.G. Kevrekidis 1 Department of Mathematics, Computer & Information Science, State University of New York (SUNY) College at Old Westbury, Westbury, NY, 11568, USA Nonlinear Dynamical Systems Group,∗ Computational Sciences Research Center, and Department of Mathematics and Statistics, San Diego State University, San Diego, California 92182-7720, USA Center for Optical Quantum Technologies, Department of Physics, University of Hamburg… 

References

SHOWING 1-10 OF 52 REFERENCES

The Defocusing Nonlinear Schrödinger Equation - From Dark Solitons to Vortices and Vortex Rings

The Defocusing Nonlinear Schrdinger Equation is a broad study of nonlinear excitations in self-defocusing nonlinear media and contains a wealth of resources, including over 800 references to relevant articles and monographs and a meticulous index for ease of navigation.

Vortices in a trapped dilute Bose-Einstein condensate

We review the theory of vortices in trapped dilute Bose-Einstein condensates and compare theoretical predictions with existing experiments. Mean-field theory based on the time-dependent

Chaotic behavior of three interacting vortices in a confined Bose-Einstein condensate.

This work reduces the study of the system to the investigation of a two degree of freedom Hamiltonian model and acquire quantitative results about its chaotic behavior and accurately and efficiently measure the extent of chaos in the model and its dependence on physically important parameters like the energy and the angular momentum.

Motions in a Bose condensate: IV. Axisymmetric solitary waves

Axisymmetric disturbances that preserve their form as they move through a Bose condensate are obtained numerically by the solution of the appropriate nonlinear Schrodinger equation. A continuous

Shell potentials for microgravity Bose–Einstein condensates

This work proposes to implement a realistic experimental framework for generating shell-geometry BEC using radiofrequency dressing of magnetically trapped samples, and discusses specific experimental configurations, applicable inhomogeneities and other experimental challenges.

Choreographies in the n-vortex Problem

We consider the equations of motion of n vortices of equal circulation in the plane, in a disk and on a sphere. The vortices form a polygonal equilibrium in a rotating frame of reference. We use

Beyond Gross-Pitaevskii Mean Field Theory

A large number of effects related to the phenomenon of Bose-Einstein Condensation (BEC) can be understood in terms of lowest order mean field theory, whereby the entire system is assumed to be
...