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arxiv: 1404.3713 · v3 · pith:RQMMQKANnew · submitted 2014-04-14 · 🌌 astro-ph.CO · gr-qc

Maximal freedom at minimum cost: linear large-scale structure in general modifications of gravity

classification 🌌 astro-ph.CO gr-qc
keywords accelerationfunctionsmodelspropertiesdark-energyfieldformulationgeneral
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We present a turnkey solution, ready for implementation in numerical codes, for the study of linear structure formation in general scalar-tensor models involving a single universally coupled scalar field. We show that the totality of cosmological information on the gravitational sector can be compressed - without any redundancy - into five independent and arbitrary functions of time only and one constant. These describe physical properties of the universe: the observable background expansion history, fractional matter density today, and four functions of time describing the properties of the dark energy. We show that two of those dark-energy property functions control the existence of anisotropic stress, the other two - dark-energy clustering, both of which are can be scale-dependent. All these properties can in principle be measured, but no information on the underlying theory of acceleration beyond this can be obtained. We present a translation between popular models of late-time acceleration (e.g. perfect fluids, f (R), kinetic gravity braiding, galileons), as well as the effective field theory framework, and our formulation. In this way, implementing this formulation numerically would give a single tool which could consistently test the majority of models of late-time acceleration heretofore proposed.

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