Schreiber Cohomotopy and Framed Links

An article that we are finalizing at CQTS:

• Hisham Sati$\;$ and $\,$ Urs Schreiber:

  
  

  Cohomotopy, Framed Links, and Abelian Anyons

  • pdf

  • arXiv:2408.11896v2 [hep-th]

  
  

  in: Proceedings of

  Focus Program on Algebraic Topology In memory of Fred Cohen

  (Fields Institute, Jul 2 – Aug 1, 2025)

  Fields Institute Communications

  Springer (2026, in press)

Abstract. We establish a natural identification of cobordism classes of framed links with the fundamental group of the group-completed configuration space of points in the plane, by appeal to Okuyama’s previously underappreciated interval configuration model for the latter. Under Segal’s theorem these classes are integers generated by the Hopf generator in the 2-cohomotopy of the 3-sphere, and we identify these knot-theoretically with the writhe sum of the linking and framing number of links. We observe that this link invariant is the properly regularized “Wilson line observable” of abelian Chern-Simons theory, and show, in consequence of the main theorem, that this arises equivalently as the expectation value of pure quantum states on the group algebra, under link sum, of cobordism classes of framed links. Observing that these quantum states regard framed links as worldlines of anyons in that they assign a fixed complex phase factor to each crossing (braiding) of strands, we close with an outlook on implications for the identification of anyonic solitons in 2D electron gases as exotic flux quantized in Cohomotopy instead of in ordinary cohomology.

This is a rewritten version (aimed more at pure mathematicians) of:

• Abelian Anyons on Flux-Quantized M5-Branes

Related articles:

• Fractional Quantum Hall Anyons via the Algebraic Topology of exotic Flux Quanta

• Renormalization of Wilson Loop Observables via Extraordinary Flux Quantization

• Higher-dimensional Anyons via Higher Cohomotopy