Evidence for interacting dark energy from BOSS

Ferreira, Elisa G. M.; Quintin, Jerome; Costa, André A.; Abdalla, Élcio; Wang, Bin

doi:10.1103/physrevd.95.043520

Cited by 94 publications

(71 citation statements)

References 67 publications

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“…An interacting DE appears as a simple and efficient solution to explain the BOSS result. If DE and DM interact and the former transfers energy to the latter, as required to alleviate the coincidence problem (see sec 2.7) and indicated by the data [118], it would explain the value of the Hubble parameter, H(z = 2.34) = 222 ± 7kms −1 Mpc −1 , obtained by the BOSS collaboration, value that is smaller than the expectation from ΛCDM [143]. It would explain the discrepancy of the angular diameter distance at high redshifts.…”

Section: High Redshift Evidence For Interacting Dementioning

confidence: 91%

Dark matter and dark energy interactions: theoretical challenges, cosmological implications and observational signatures

et al. 2016

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Abstract. Models where Dark Matter and Dark Energy interact with each other have been proposed to solve the coincidence problem. We review the motivations underlying the need to introduce such interaction, its influence on the background dynamics and how it modifies the evolution of linear perturbations. We test models using the most recent observational data and we find that the interaction is compatible with the current astronomical and cosmological data. Finally, we describe the forthcoming data sets from current and future facilities that are being constructed or designed that will allow a clearer understanding of the physics of the dark sector.

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Section: High Redshift Evidence For Interacting Dementioning

confidence: 91%

Dark matter and dark energy interactions: theoretical challenges, cosmological implications and observational signatures

et al. 2016

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“…See [12,13] for general review. The late-time interaction in the dark sector has recently been investigated in various studies [14][15][16][17][18][19][20][21][22][23][24][25][26] in different contexts.…”

Section: Introductionmentioning

confidence: 99%

Echo of interactions in the dark sector

2017

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We investigate the observational constraints on an interacting vacuum energy scenario with two different neutrino schemes (with and without a sterile neutrino) using the most recent data from CMB temperature and polarization anisotropy, baryon acoustic oscillations (BAO), type Ia supernovae from JLA sample and structure growth inferred from cluster counts. We find that inclusion of the galaxy clusters data with the minimal data combination CMB + BAO + JLA suggests an interaction in the dark sector, implying the decay of dark matter particles into dark energy, since the constraints obtained by including the galaxy clusters data yield a non-null and negative coupling parameter between the dark components at 99% confidence level. We deduce that the current tensions on the parameters H0 and σ8 can be alleviated within the framework of the interacting as well as non-interacting vacuum energy models with sterile neutrinos.PACS numbers: 95.35.+d; 95.36.+x; 14.60.Pq; 98.80.Es

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“…The study of dark energy and dark matter coupling has been widely investigated in order to describe a way out from the cosmic coincidence problem [8][9][10][11][12]. Moreover, the observation also provide a hint for the existence of the coupling [13]. However, in order to recover the standard thermodynamics equations, the Lagrangian must involve at least five independent functions.…”

Section: Introductionmentioning

confidence: 99%

Perfect fluid in Lagrangian formulation due to generalized three-form field

Wongjun

2017

Phys. Rev. D

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A Lagrangian formulation of perfect fluid due to a noncanonical three-form field is investigated.The thermodynamic quantities such as energy density, pressure and the four velocity are obtained and then analyzed by comparing with the k-essence scalar field. The nonrelativistic matter due to the generalized three-form field with the equation of state parameter being zero is realized while it might not be possible for the k-essence scalar field. We also found that nonadiabatic pressure perturbations can be possibly generated. The fluid dynamics of the perfect fluid due to the threeform field corresponds to the system in which the number of particles is not conserved.We argue that it is interesting to use this three-form field to represent the dark matter for the classical interaction theory between dark matter and dark energy.

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Evidence for interacting dark energy from BOSS

Cited by 94 publications

References 67 publications

Dark matter and dark energy interactions: theoretical challenges, cosmological implications and observational signatures

Dark matter and dark energy interactions: theoretical challenges, cosmological implications and observational signatures

Echo of interactions in the dark sector

Perfect fluid in Lagrangian formulation due to generalized three-form field

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