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The Atiyah Class and Complex Structure Stabilization in Heterotic Calabi-Yau Compactifications

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arxiv 1107.5076 v1 pith:R7OINGZD submitted 2011-07-25 hep-th

The Atiyah Class and Complex Structure Stabilization in Heterotic Calabi-Yau Compactifications

classification hep-th
keywords modulicomplexstructurestabilizationatiyahbundlecalabi-yauclass
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Holomorphic gauge fields in N=1 supersymmetric heterotic compactifications can constrain the complex structure moduli of a Calabi-Yau manifold. In this paper, the tools necessary to use holomorphic bundles as a mechanism for moduli stabilization are systematically developed. We review the requisite deformation theory -- including the Atiyah class, which determines the deformations of the complex structure for which the gauge bundle becomes non-holomorphic and, hence, non-supersymmetric. In addition, two equivalent approaches to this mechanism of moduli stabilization are presented. The first is an efficient computational algorithm for determining the supersymmetric moduli space, while the second is an F-term potential in the four-dimensional theory associated with vector bundle holomorphy. These three methods are proven to be rigorously equivalent. We present explicit examples in which large numbers of complex structure moduli are stabilized. Finally, higher-order corrections to the moduli space are discussed.

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Cited by 2 Pith papers

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    Deforming holomorphic Chern-Simons theory produces rescaling-invariant instantons and anomaly-free theories on End(TX) for Morse-classified directions in deformation space.