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Equivalence principle violations and couplings of a light dilaton | Synapse

October 20, 2010Open Access

Equivalence principle violations and couplings of a light dilaton

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Abstract

We consider possible violations of the equivalence principle through the exchange of a light ``dilaton-like'' scalar field. Using recent work on the quark-mass dependence of nuclear binding, we find that the dilaton-quark-mass coupling induces significant equivalence-principle-violating effects varying like the inverse cubic root of the atomic number---A^-1/3. We provide a general parametrization of the scalar couplings, but argue that two parameters are likely to dominate the equivalence-principle phenomenology. We indicate the implications of this framework for comparing the sensitivities of current and planned experimental tests of the equivalence principle.

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Damour et al. (Wed,) studied this question.

synapsesocial.com/papers/69daba557a67537a8ba3c04e https://doi.org/https://doi.org/10.1103/physrevd.82.084033