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A Naturally Light Dilaton and a Small Cosmological Constant

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arxiv 1305.3919 v1 pith:HEJBOPRA submitted 2013-05-16 hep-th gr-qchep-ph

A Naturally Light Dilaton and a Small Cosmological Constant

classification hep-th gr-qchep-ph
keywords dilatontheoryconformalepsilonholographicbrokenconstantcosmological
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a non-supersymmetric theory with a naturally light dilaton. It is based on a 5D holographic description of a conformal theory perturbed by a close-to-marginal operator of dimension 4-epsilon, which develops a condensate. As long as the dimension of the perturbing operator remains very close to marginal (even for large couplings) a stable minimum at hierarchically small scales is achieved, where the dilaton mass squared is suppressed by epsilon. At the same time the cosmological constant in this sector is also suppressed by epsilon, and thus parametrically smaller than in a broken SUSY theory. As a byproduct we also present an exact solution to the scalar-gravity system that can be interpreted as a new holographic realization of spontaneously broken conformal symmetry. Even though this metric deviates substantially from AdS space in the deep IR it still describes a non-linearly realized exactly conformal theory. We also display the effective potential for the dilaton for arbitrary holographic backgrounds.

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Cited by 2 Pith papers

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  1. Moduli Spaces in CFT: Large Charge Operators

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    CFTs with broken continuous global symmetry on the moduli space require a tower of charged local operators whose scaling dimensions are asymptotically linear in the charge.

  2. Ultralight Dilatonic Dark Matter

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    Supersymmetry can stabilize an ultralight dilaton dark matter candidate, but gravity restricts its Standard Model couplings to undetectable levels, making consistent model building involved.