English

Higher-order Brunnian structures and possible physical realizations

Quantum Physics 2014-02-14 v3 General Topology Geometric Topology Nuclear Theory

Abstract

We consider few-body bound state systems and provide precise definitions of Borromean and Brunnian systems. The initial concepts are more than a hundred years old and originated in mathematical knot-theory as purely geometric considerations. About thirty years ago they were generalized and applied to the binding of systems in nature. It now appears that recent generalization to higher order Brunnian structures may potentially be realized as laboratory made or naturally occurring systems. With the binding energy as measure, we discuss possibilities of physical realization in nuclei, cold atoms, and condensed matter systems. Appearance is not excluded. However, both the form and the strengths of the interactions must be rather special. The most promising subfields for present searches would be in cold atoms because of external control of effective interactions, or perhaps in condensed-matter systems with non-local interactions. In nuclei, it would only be by sheer luck due to a lack of tunability.

Keywords

Cite

@article{arxiv.1205.0746,
  title  = {Higher-order Brunnian structures and possible physical realizations},
  author = {Nils A. Baas and D. V. Fedorov and A. S. Jensen and K. Riisager and A. G. Volosniev and N. T. Zinner},
  journal= {arXiv preprint arXiv:1205.0746},
  year   = {2014}
}

Comments

8 pages, 5 figures, revised version

R2 v1 2026-06-21T20:58:17.055Z