Tuesday, December 18, 2012

1212.4136 (Juliano Pereira Campos et al.)

Does Chaplygin gas have salvation?    [PDF]

Juliano Pereira Campos, Júlio César Fabris, Rafael Perez, Oliver F. Piattella, Hermano Velten
We investigate the unification scenario provided by the generalised Chaplygin gas model (a perfect fluid characterized by an equation of state p = -A/\rho^{\alpha}). Our concerns lie with a possible tension existing between background kinematic tests and those related to the evolution of small perturbations. We analyse data from the observation of the differential age of the universe, type Ia supernovae, baryon acoustic oscillations and the position of the first peak of the angular spectrum of the cosmic background radiation. We show that these tests favour negative values of the parameter \alpha: we find \alpha = -0.089^{+0.161}_{-0.128} at the 2\sigma level. These would correspond to negative values of the square speed of sound which are unacceptable from the point of view of structure formation. We discuss a possible solution to this problem, when the generalised Chaplygin gas is framed in the modified theory of gravity proposed by Rastall. We show that a fluid description within this theory does not serve the purpose, but it is necessary to frame the generalised Chaplygin gas in a scalar field theory. Finally, we address the standard general relativistic unification picture provided by the generalised Chaplygin gas in the case \alpha = 0: this is usually considered to be undistinguishable from the standard \Lambda CDM model, but we show that the evolution of small perturbations, governed by the M\'esz\'aros equation, is indeed different and the formation of sub-horizon GCG matter halos seems to be strongly suppressed in comparison with the \Lambda CDM scenario.
View original: http://arxiv.org/abs/1212.4136

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