2009
DOI: 10.1103/physrevd.80.083511
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Hubble expansion and structure formation in time varying vacuum models

Abstract: We investigate the properties of the FLRW flat cosmological models in which the vacuum energy density evolves with time, Λ(t). Using different versions of the Λ(t) model, namely quantum field vacuum, power series vacuum and power law vacuum, we find that the main cosmological functions such as the scale factor of the universe, the Hubble expansion rate H and the energy densities are defined analytically. Performing a joint likelihood analysis of the recent supernovae type Ia data, the Cosmic Microwave Backgrou… Show more

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Cited by 231 publications
(431 citation statements)
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“…But χ 2 min is larger than the one for the ΛCDM model, χ 2 ΛCDM = 554.264. A similar conclusion is also reached by other authors using different data set [33]. It is not hard to understand why in this model, χ 2 min is large, compared to the ΛCDM model.…”
Section: Fitting Resultssupporting
confidence: 73%
“…But χ 2 min is larger than the one for the ΛCDM model, χ 2 ΛCDM = 554.264. A similar conclusion is also reached by other authors using different data set [33]. It is not hard to understand why in this model, χ 2 min is large, compared to the ΛCDM model.…”
Section: Fitting Resultssupporting
confidence: 73%
“…Finally, in order to confirm the above results, we need to define a robust cosmological probe at high redshifts (z ≥ 3). In Basilakos et al (2009) we propose that the future cluster surveys based on the Sunayev-Zeldovich detection method will possibly distinguish the closely resembling vacuum models at high redshifts. the renormalization group from the quantum field theory introduces only even powers of H out of which the H 2 is the leading term (Grande et al 2006;Solá 2008, and references therein).…”
Section: Discussionmentioning
confidence: 99%
“…It becomes 1 Note that from a theoretical viewpoint the predicted value of the γ parameter is |γ| = 1 12π M 2 M 2 P , where M P is the Planck mass and M is an effective mass parameter representing the average mass of the heavy particles of the Grand Unified Theory (GUT) near the Planck scale, after taking into account their multiplicities. In the case of M ∼ M P we can derive an upper limit of |γ| ≤ 1/12π (for more details see Basilakos et al 2009). clear is that for 0.1 ≤ a ≤ 0.34 (or 2 ≤ z ≤ 10) the vacuum density is low enough (r ∼ 0) to allow galaxies and galaxy clusters to form (Garriga et al 1999;Basilakos et al 2009).…”
Section: The Coincidence Problemmentioning
confidence: 99%
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