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Compact stars in alternative theories of gravity. Einstein-Dilaton-Gauss-Bonnet gravity

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arxiv 1109.0928 v1 pith:EZDE5AFO submitted 2011-09-05 gr-qc astro-ph.HEhep-ph

Compact stars in alternative theories of gravity. Einstein-Dilaton-Gauss-Bonnet gravity

classification gr-qc astro-ph.HEhep-ph
keywords compactstarstheoriesgravityalternativefirstconstraintseinstein-dilaton-gauss-bonnet
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We develop a theoretical framework to study slowly rotating compact stars in a rather general class of alternative theories of gravity, with the ultimate goal of investigating constraints on alternative theories from electromagnetic and gravitational-wave observations of compact stars. Our Lagrangian includes as special cases scalar-tensor theories (and indirectly f(R) theories) as well as models with a scalar field coupled to quadratic curvature invariants. As a first application of the formalism, we discuss (for the first time in the literature) compact stars in Einstein-Dilaton-Gauss-Bonnet gravity. We show that compact objects with central densities typical of neutron stars cannot exist for certain values of the coupling constants of the theory. In fact, the existence and stability of compact stars sets more stringent constraints on the theory than the existence of black hole solutions. This work is a first step in a program to systematically rule out (possibly using Bayesian model selection) theories that are incompatible with astrophysical observations of compact stars.

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Cited by 3 Pith papers

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    In scalar-vector-tensor gravity, the vector-curvature coupling alters neutron star mass-radius curves and radial oscillation frequencies while preserving the coincidence of maximum mass with the onset of radial instability.

  3. Testing General Relativity with Present and Future Astrophysical Observations

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    A review summarizing modified theories of gravity, their effects on compact objects, existing bounds from astrophysical observations, and the promise of future gravitational wave tests for strong-field gravity.