Bailey flows and Bose-Fermi identities for the conformal coset models $(A^{(1)}_1)_N\times (A^{(1)}_1)_{N'}/(A^{(1)}_1)_{N+N'}$

A. Berkovich; A. Schilling; B.M. McCoy; S.O. Warnaar

arxiv: hep-th/9702026 · v2 · submitted 1997-02-03 · ✦ hep-th

Bailey flows and Bose-Fermi identities for the conformal coset models (A⁽¹⁾₁)_Ntimes (A⁽¹⁾₁)_(N')/(A⁽¹⁾₁)_(N+N')

A. Berkovich , B.M. McCoy , A. Schilling , S.O. Warnaar This is my paper

classification ✦ hep-th

keywords baileyidentitiesmodelsbose-fermicosetflowtimescartan

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We use the recently established higher-level Bailey lemma and Bose-Fermi polynomial identities for the minimal models $M(p,p')$ to demonstrate the existence of a Bailey flow from $M(p,p')$ to the coset models $(A^{(1)}_1)_N\times (A^{(1)}_1)_{N'}/(A^{(1)}_1)_{N+N'}$ where $N$ is a positive integer and $N'$ is fractional, and to obtain Bose-Fermi identities for these models. The fermionic side of these identities is expressed in terms of the fractional-level Cartan matrix introduced in the study of $M(p,p')$. Relations between Bailey and renormalization group flow are discussed.

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