Journal
PHYSICS LETTERS B
Volume 685, Issue 2-3, Pages 185-189Publisher
ELSEVIER
DOI: 10.1016/j.physletb.2010.01.061
Keywords
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Funding
- National Natural Science Foundation of China [10675045, 10875040, 10875041]
- Hunan Provincial Natural Science Foundation of China [08JJ3010]
- National Basic Research of China [2010CB833004]
- Construct Program of Key Disciplines in Hunan Province
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We propose two improved parameterized form for the growth index of the linear matter perturbations: (I) gamma(z) = gamma(0) + (gamma(infinity) - gamma(0))z/z+1 and (II) gamma(z) = gamma(0) + gamma(1)z/z+1 + (gamma(infinity) - gamma(1) - gamma(0))(z/z+1)(alpha). With these forms of y(z), we analyze the accuracy of the approximation the growth factor f by Omega(gamma(z))(m) for both the wCDM model and the DGP model. For the first improved parameterized form, we find that the approximation accuracy is enhanced at the high redshifts for both kinds of models, but it is not at the low redshifts. For the second improved parameterized form, it is found that Omega(gamma(z))(m) approximates the growth factor f very well for all redshifts. For chosen alpha, the relative error is below 0.003% for the Lambda CDM model and 0.028% for the DGP model when Omega(m) = 0.27. Thus, the second improved parameterized form of gamma(z) should be useful for the high precision constraint on the growth index of different models with the observational data. Moreover, we also show that alpha depends oil the equation of state w and the fractional energy density of matter Omega(m0), which may help us learn more information about dark energy and DGP models. (c) 2010 Elsevier B.V. All rights reserved.
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