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Forecasting the interaction in dark matter-dark energy models with standard sirens from the Einstein telescope

Riis R.A. Bachega, André A. Costa, E. Abdalla, K.S.F. Fornazier

2020Journal of Cosmology and Astroparticle Physics40 citationsDOIOpen Access PDF

Abstract

Gravitational Waves (GW's) can determine the luminosity distance of the progenitor directly from the amplitude of the wave, without assuming any specific cosmological model. Thus, it can be considered as a standard siren. The coalescence of binary neutron stars (BNS) or neutron star-black hole pair (NSBH) can generate GW's as well as the electromagnetic counterpart, which can be detected in a form of Gamma-Ray Bursts (GRB) and can be used to determine the redshift of the source. Consequently, such a standard siren can be a very useful probe to constrain the cosmological parameters. In this work, we consider an interacting Dark Matter-Dark Energy (DM-DE) model. Assuming some fiducial values for the parameters of our model, we simulate the luminosity distance for a "realistic" and "optimistic" GW+GRB events , which can be detected by the third-generation GW detector Einstein Telescope (ET). Using these simulated events, we perform a Monte Carlo Markov Chain (MCMC) to constrain the DM-DE coupling constant and other model parameters in $1\sigma$ and $2\sigma$ confidence levels. We also investigate how GW's can improve the constraints obtained by current cosmological probes.

Topics & Concepts

PhysicsDark energyEinstein TelescopeNeutron starGravitational waveAstrophysicsLuminosity distanceRedshiftAmplitudeStandard Model (mathematical formulation)LuminosityLambda-CDM modelCoupling (piping)EinsteinCosmological constantTelescopeCoalescence (physics)SupernovaCosmologyMarkov chain Monte CarloBlack hole (networking)GalaxyGravitational wave backgroundGravitationMonte Carlo methodBinary numberEnergy (signal processing)DetectorNeutronCosmic background radiationCoupling constantAstronomyDark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesPulsars and Gravitational Waves Research
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