English

Cosmological perturbations on the Phantom brane

General Relativity and Quantum Cosmology 2016-07-27 v2 Cosmology and Nongalactic Astrophysics High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

We obtain a closed system of equations for scalar perturbations in a multi-component braneworld. Our braneworld possesses a phantom-like equation of state at late times, weff<1w_{\rm eff} < -1, but no big-rip future singularity. In addition to matter and radiation, the braneworld possesses a new effective degree of freedom - the 'Weyl fluid' or 'dark radiation'. Setting initial conditions on super-Hubble spatial scales at the epoch of radiation domination, we evolve perturbations of radiation, pressureless matter and the Weyl fluid until the present epoch. We observe a gradual decrease in the amplitude of the Weyl-fluid perturbations after Hubble-radius crossing, which results in a negligible effect of the Weyl fluid on the evolution of matter perturbations on spatial scales relevant for structure formation. Consequently, the quasi-static approximation of Koyama and Maartens provides a good fit to the exact results during the matter-dominated epoch. We find that the late-time growth of density perturbations on the brane proceeds at a faster rate than in Λ\LambdaCDM. Additionally, the gravitational potentials Φ\Phi and Ψ\Psi evolve differently on the brane than in Λ\LambdaCDM, for which Φ=Ψ\Phi = \Psi. On the brane, by contrast, the ratio Φ/Ψ\Phi/\Psi exceeds unity during the late matter-dominated epoch (z50z \lesssim 50). These features emerge as "smoking gun" tests of phantom brane cosmology and allow predictions of this scenario to be tested against observations of galaxy clustering and large-scale structure.

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Cite

@article{arxiv.1603.01277,
  title  = {Cosmological perturbations on the Phantom brane},
  author = {Satadru Bag and Alexander Viznyuk and Yuri Shtanov and Varun Sahni},
  journal= {arXiv preprint arXiv:1603.01277},
  year   = {2016}
}

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R2 v1 2026-06-22T13:03:28.525Z