Litcius/Paper detail

No Evidence of Kinetic Screening in Simulations of Merging Binary Neutron Stars beyond General Relativity

Miguel Bezares, Ricard Aguilera-Miret, Lotte ter Haar, Marco Crisostomi, Carlos Palenzuela, Enrico Barausse

2022Physical Review Letters45 citationsDOIOpen Access PDF

Abstract

We have conducted fully relativistic simulations in a class of scalar-tensor theories with derivative self-interactions and screening of local scales. By using high-resolution shock-capturing methods and a nonvanishing shift vector, we have managed to avoid issues plaguing similar attempts in the past. We have first confirmed recent results by ourselves in spherical symmetry, obtained with an approximate approach and pointing at a partial breakdown of the screening in black-hole collapse. Then, we considered the late inspiral and merger of binary neutron stars. We found that screening tends to suppress the (subdominant) dipole scalar emission, but not the (dominant) quadrupole scalar mode. Our results point at quadrupole scalar signals as large as (or even larger than) in Fierz-Jordan-Brans-Dicke theories with the same conformal coupling, for strong-coupling scales in the MeV range that we can simulate.

Topics & Concepts

PhysicsScalar (mathematics)QuadrupoleGeneral relativityBinary numberNeutron starConformal mapKinetic energyDipoleNumerical relativityTheoretical physicsTheory of relativityGravitationRange (aeronautics)Quantum electrodynamicsTests of general relativityCosmic microwave backgroundClassical mechanicsGravitational waveNeutronPoint (geometry)Statistical physicsGeodesicEffective field theoryNuclear physicsHaloPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsGamma-ray bursts and supernovae