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From Rigid Supersymmetry to Twisted Holomorphic Theories

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arxiv 1407.2598 v2 pith:3BGU6PT5 submitted 2014-07-09 hep-th

From Rigid Supersymmetry to Twisted Holomorphic Theories

classification hep-th
keywords complexfieldsgeometrysupersymmetrysymmetrytheoriestwistedbackground
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We study N=1 field theories with a U(1)_R symmetry on compact four-manifolds M. Supersymmetry requires M to be a complex manifold. The supersymmetric theory on M can be described in terms of conventional fields coupled to background supergravity, or in terms of twisted fields adapted to the complex geometry of M. Many properties of the theory that are difficult to see in one formulation are simpler in the other one. We use the twisted description to study the dependence of the partition function Z_M on the geometry of M, as well as coupling constants and background gauge fields, recovering and extending previous results. We also indicate how to generalize our analysis to three-dimensional N=2 theories with a U(1)_R symmetry. In this case supersymmetry requires M to carry a transversely holomorphic foliation, which endows it with a near-perfect analogue of complex geometry. Finally, we present new explicit formulas for the dependence of Z_M on the choice of U(1)_R symmetry in four and three dimensions, and illustrate them for complex manifolds diffeomorphic to S^3 x S^1, as well as general squashed three-spheres.

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