Dark Energy After GW170817: Dead Ends and the Road Ahead

Ezquiaga, José María; Zumalacárregui, Miguel

doi:10.1103/physrevlett.119.251304

Cited by 960 publications

(1,008 citation statements)

References 65 publications

(122 reference statements)

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“…We note that the recent confirmation of the gravitational wave propagation speed to agree with the speed of light at the order of one part in quadrillionth [7,8] [30,31]. Further, the latter does not depend on φ either (except through its derivatives), hence, due to the Bianchi identities, the whole L 5 ought to vanish [32] (see also [33,34]). …”

Section: Junction Conditions Across Arbitrary Hypersurfacesmentioning

confidence: 58%

Light-Like Shockwaves in Scalar-Tensor Theories

Racskó

Gergely

2018

Universe

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Both electromagnetic shock-waves and gravitational waves propagate with the speed of light. If they carry significant energy-momentum, this will change the properties of the space-time they propagate through. This can be described in terms of the junction conditions between space-time regions separated by a singular, null hypersurface. We derived generic junction conditions for Brans-Dicke theory in the Jordan frame, exploring a formalism based on a transverse vector, rather than normal, which can be applied to any type of hypersurfaces. In the particular case of a non-null hypersurface we obtain a generalised Lanczos equation, in which the jump of the extrinsic curvature is sourced by both the distributional energy-momentum tensor and by the jump in the transverse derivative of the scalar. In the case of null hypersurfaces, the distributional source is decomposed into surface density, current and pressure. The latter, however, ought to vanish by virtue of the scalar junction condition.

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Section: Junction Conditions Across Arbitrary Hypersurfacesmentioning

confidence: 58%

Light-Like Shockwaves in Scalar-Tensor Theories

Racskó

Gergely

2018

Universe

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“…This may lead to a more efficient and detectable emission of gravitational waves [68,[76][77][78][79][80][81]. Obviously, in the recently opened era of gravitational-wave physics, there is still some room [82,83] for such phenomena to help unveil the real nature of the gravitational interaction. Nevertheless, at the present time our lack of understanding of the strong interaction sector remains larger than the corrections arising from the modifications of gravity.…”

Section: Discussionmentioning

confidence: 99%

Towards New Constraints in Extended Theories of Gravity: Cosmography and Gravitational-Wave Signals from Neutron Stars

Cruz-Dombriz

2018

Galaxies

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Combined cosmological, astrophysical and numerical tests may shed some light on the viability of theories of gravity beyond Einsteinian relativity. In this letter, we present two different techniques providing complementary ways of testing new physics beyond the ΛCDM cosmological paradigm. First, we shall present some of the latest progress and shortcomings in the cosmographic model-independent approach for several modified gravity theories using supernovae catalogues, baryonic acoustic oscillation data and H(z) differential age compilations. Second, we shall show how once the Einsteinian paradigm is abandoned, the phenomenology of neutron stars changes dramatically since neutron-star masses can be much larger than their General Relativity counterparts. Consequently, the total energy available for radiating gravitational waves could be of the order of several solar masses, and thus a merger of these stars constitutes a privileged wave source. Unfortunately at the present time our persisting lack of understanding in the strong interaction sector does not allow to distinguish the alternative theories from the usual General Relativity predictions.

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“…[32,[69][70][71]). These decisive statements will undoubtedly shape the direction of future research into extensions of general relativity.…”

Section: -3mentioning

confidence: 99%

Reining in Alternative Gravity

Schmidt

2017

Physics

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The detection of an electromagnetic counterpart (GRB 170817A) to the gravitational-wave signal (GW170817) from the merger of two neutron stars opens a completely new arena for testing theories of gravity. We show that this measurement allows us to place stringent constraints on general scalar-tensor and vector-tensor theories, while allowing us to place an independent bound on the graviton mass in bimetric theories of gravity. These constraints severely reduce the viable range of cosmological models that have been proposed as alternatives to general relativistic cosmology.

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Dark Energy After GW170817: Dead Ends and the Road Ahead

Cited by 960 publications

References 65 publications

Light-Like Shockwaves in Scalar-Tensor Theories

Light-Like Shockwaves in Scalar-Tensor Theories

Towards New Constraints in Extended Theories of Gravity: Cosmography and Gravitational-Wave Signals from Neutron Stars

Reining in Alternative Gravity

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