English

The Multi-component Correlated Basis Function Method and its Application to Multilayered Dipolar Bose Gases

Quantum Gases 2017-03-29 v1

Abstract

We present a method for calculating the dynamics of a bosonic mixture, the multi-component correlated basis function (CBF) method. For single components, CBF results for the excitation energies agree quite well with experimental results, even for highly correlated systems like 4^4He, and recent systematic improvements of CBF achieve perfect agreement. We give a full derivation of multi-component CBF, and apply the method to a dipolar Bose gas cut into two-dimensional layers by a deep optical lattice, with coupling between layers due to the long-ranged dipole-dipole interaction. We consider the case of strong coupling, leading to large positive interlayer correlations. We calculate the spectrum for a system of 8 layers and show that the strong coupling can lead to a simpler spectrum than in the uncoupled case, with a single peak carrying most of the spectral weight.

Keywords

Cite

@article{arxiv.1611.04757,
  title  = {The Multi-component Correlated Basis Function Method and its Application to Multilayered Dipolar Bose Gases},
  author = {Michael Rader and Martin Hebenstreit and Robert E. Zillich},
  journal= {arXiv preprint arXiv:1611.04757},
  year   = {2017}
}

Comments

14 pages, 8 figures

R2 v1 2026-06-22T16:52:44.683Z