Schreiber Anyonic topological order in TED K-theory

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An article that we have written:

on extending the K-theory classification of topological phases to anyonic topological order.

Abstract. While the classification of non-interacting crystalline topological insulator phases by equivariant K-theory has become widely accepted, its generalization to anyonic interacting phases – hence to phases with topologically ordered ground states supporting topological braid quantum gates – has remained wide open.

On the contrary, the success of K-theory with classifying non-interacting topological phases seems to have tacitly been perceived as precluding a K-theoretic classification of interacting topological order; and instead a mix of other proposals has been explored. However, only K-theory connects closely to the actual physics of valence electrons; and self-consistency demands that any other proposal must connect to K-theory.

Here we provide a detailed argument for the classification of symmetry protected/enhanced 𝔰𝔲 ( 2 ) \mathfrak{su}(2) -anyonic topological order, specifically in interacting 2d semi-metals, by the twisted equivariant differential (TED) K-theory of configuration spaces of points in the complement of nodal points inside the crystal‘s Brillouin torus orbi-orientifold.

We argue, in particular, that:

  1. topological 2d semi-metal\;phases modulo global mass terms are classified by the flat differential twisted equivariant K-theory of the complement of the nodal points;

  2. nn-electron interacting phases are classified by the K-theory of configuration spaces of n n points in the Brillouin torus;

  3. the somewhat neglected twisting of equivariant K-theory by “inner local systems” reflects the effective "fictitious" gauge interaction of Chen, Wilczeck, Witten & Halperin (1989), which turns fermions into anyonic quanta;

  4. the induced 𝔰𝔲 ( 2 ) \mathfrak{su}(2) -anyonic topological order is reflected in the twisted Chern classes of the interacting valence bundle over configuration space, constituting the hypergeometric integral construction of monodromy braid representations.

A tight dictionary relates these arguments to those for classifying defect brane charges in string theory [[SS22-Any]], which we expect to be the images of momentum-space 𝔰𝔲 ( 2 ) \mathfrak{su}(2) -anyons under a non-perturbative version of the AdS/CMT correspondence.


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