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Bounds on Scalar Masses in Theories of Moduli Stabilization

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arxiv 1006.3272 v3 pith:EDMXB5SC submitted 2010-06-16 hep-ph astro-ph.HEgr-qchep-th

Bounds on Scalar Masses in Theories of Moduli Stabilization

classification hep-ph astro-ph.HEgr-qchep-th
keywords modulidarkdecaysmassmattercosmologicalgravitinoless
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In recent years it has been realised that pre-BBN decays of moduli can be a significant source of dark matter production, giving a `non-thermal WIMP miracle' and substantially reduced fine-tuning in cosmological axion physics. We study moduli masses and sharpen the claim that moduli dominated the pre-BBN Universe. We conjecture that in any string theory with stabilized moduli there will be at least one modulus field whose mass is of order (or less than) the gravitino mass. Cosmology then generically requires the gravitino mass not be less than about 30 TeV and the cosmological history of the Universe is non-thermal prior to BBN. Stable LSP's produced in these decays can account for the observed dark matter if they are `wino-like.' We briefly consider implications for the LHC, rare decays, and dark matter direct detection and point out that these results could prove challenging for models attempting to realize gauge mediation in string theory.

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