Fusion rules and structure constants of E-series minimal models

Abstract

In the ADE classification of Virasoro minimal models, the E-series is the sparsest: their central charges c=1-6(p-q)2pq are not dense in the half-line c∈ (-∞,1), due to q=12,18,30 taking only 3 values -- the Coxeter numbers of E6, E7, E8. The E-series is also the least well understood, with few known results beyond the spectrum. Here, we use a semi-analytic bootstrap approach for numerically computing 4-point correlation functions. We deduce non-chiral fusion rules, i.e. which 3-point structure constants vanish. These vanishings can be explained by constraints from null vectors, interchiral symmetry, simple currents, extended symmetries, permutations, and parity, except in one case for q=30. We conjecture that structure constants are given by a universal expression built from the double Gamma function, times polynomial functions of (πpq) with values in Q((πq)), which we work out explicitly for q=12. We speculate on generalizing E-series minimal models to generic integer values of q, and recovering loop CFTs as p,q ∞.

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