4.6 Article

Dark energy from α-attractors: phenomenology and observational constraints

Journal

Publisher

IOP PUBLISHING LTD
DOI: 10.1088/1475-7516/2018/08/022

Keywords

dark energy theory; cosmological parameters from CMBR; cosmological parameters from LSS; inflation

Funding

  1. Ministry of Industry, Sciece and Innovation of Spain [AYA2015-67854-P]
  2. FEDER funds
  3. Spanish grant [BES-2016-077038]
  4. Energetic Cosmos Laboratory
  5. U.S. Department of Energy, Office of Science, Office of High Energy Physics [DE-SC-0007867, DE-AC02- 05CH11231]
  6. Marie Sklodowska-Curie Global Fellowship Project NLO-CO
  7. COST action (CANTATA) [CA15117]
  8. COST (European Cooperation in Science and Technology)

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The possibility of linking inflation and late cosmic accelerated expansion using the alpha-attractor models has received increasing attention due to their physical motivation. In the early universe, alpha-attractors provide an inflationary mechanism compatible with Planck satellite CMB observations and predictive for future gravitational wave CMB modes. Additionally alpha-attractors can be written as quintessence models with a potential that connects a power law regime with a plateau or uplifted exponential, allowing a late cosmic accelerated expansion that can mimic behavior near a cosmological constant. In this paper we study a generalized dark energy alpha-attractor model. We thoroughly investigate its phenomenology, including the role of all model parameters and the possibility of large-scale tachyonic instability clustering. We verify the relation that 1 + w similar to 1/alpha (while the gravitational wave power r similar to alpha) so these models predict that a signature should appear in either the primordial B-modes or in late time deviation from a cosmological constant. We constrain the model parameters with current datasets, including the cosmic microwave background (Planck 2015 angular power spectrum, polarization and lensing), baryon acoustic oscillations (BOSS DR12) and supernovae (Pantheon compressed). Our results show that expansion histories close to a cosmological constant exist in large regions of the parameter space, not requiring a fine-tuning of the parameters or initial conditions.

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