A Large N Type IIB Duality via a Spin(7) Geometric Transition as an F-theory Flop

Abstract

The geometric features and toric descriptions of two different 8-dimensional Spin(7) manifolds constructed via distinct resolutions of the cone over an SU(3)/U(1) base, reveals that the geometry of the Spin(7) conifold transition considered by Gukov et al. in gst, is effected by a transition in its 6-dimensional submanifold which is isomorphic to a resolved or deformed Calabi-Yau 3-fold. This allows for a natural extension of the Gopakumar-Vafa large N superstring duality of gv, v; IIB superstring theory compactified on the Spin(7) manifold with N space-filling D5-branes wrapping an even-dimensional supersymmetric cycle, can be argued to undergo a large N geometric transition at low energy to a dual geometry with no branes but with certain units of 3-form fluxes through appropriate 3-cycles. For small or large string coupling in a non-trivial axion field background, this large N type IIB duality can be lifted to a purely geometric RP5 flop without D5-branes and 3-form fluxes via an F-theoretic description. The orientable, 10-dimensional, non-compact, Ricci-flat, spinc manifold undergoing the smooth RP5 flop possesses an extended SU(5) Z2 holonomy group, thus preserving 1/32 of the maximal supersymmetry, consistent with the resulting N =(1,0) supersymmetric pure SU(N) theory in 1+1 dimensions.

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