R. C. Santos scite author profile

A new kind of accelerating flat model with no dark energy that is fully dominated by cold dark matter (CDM) is investigated. The number of CDM particles is not conserved and the present accelerating stage is a consequence of the negative pressure describing the irreversible process of gravitational particle creation. A related work involving accelerating CDM cosmology has been discussed before the SNe observations [Lima, Abramo & Germano, Phys. Rev. D53, 4287 (1996)]. However, in order to have a transition from a decelerating to an accelerating regime at low redshifts, the matter creation rate proposed here includes a constant term of the order of the Hubble parameter. In this case, H0 does not need to be small in order to solve the age problem and the transition happens even if the matter creation is negligible during the radiation and part of the matter dominated phase. Therefore, instead of the vacuum dominance at redshifts of the order of a few, the present accelerating stage in this sort of Einstein-de Sitter CDM cosmology is a consequence of the gravitational particle creation process. As an extra bonus, in the present scenario does not exist the coincidence problem that plagues models with dominance of dark energy. The model is able to harmonize a CDM picture with the present age of the universe, the latest measurements of the Hubble parameter and the Supernovae observations. PACS numbers: 95.35.+d,95.30.Tg

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An accelerating cosmology without dark energy

Steigman

Santos

Lima

2009

J. Cosmol. Astropart. Phys.

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The negative pressure accompanying gravitationally-induced particle creation can lead to a cold dark matter (CDM) dominated, accelerating Universe (Lima et al. 1996 [1]) without requiring the presence of dark energy or a cosmological constant. In a recent study Lima et al. 2008 [2] (LSS) demonstrated that particle creation driven cosmological models are capable of accounting for the SNIa observations [3] of the recent transition from a decelerating to an accelerating Universe. Here we test the evolution of such models at high redshift using the constraint on zeq, the redshift of the epoch of matter -radiation equality, provided by the WMAP constraints on the early Integrated Sachs-Wolfe effect (ISW) [4]. Since the contribution of baryons and radiation was ignored in the work of LSS, we include them in our study of this class of models. The parameters of these more realistic models with continuous creation of CDM is tested and constrained at widely-separated epochs (z ≈ zeq and z ≈ 0) in the evolution of the Universe. This comparison reveals a tension between the high redshift CMB constraint on zeq and that which follows from the low redshift SNIa data, challenging the viability of this class of models. 95.35.+d,95.30.Tg

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New coupled quintessence cosmology

et al. 2008

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A component of dark energy has been recently proposed to explain the current acceleration of the Universe. Unless some unknown symmetry in Nature prevents or suppresses it, such a field may interact with the pressureless component of dark matter, giving rise to the so-called models of coupled quintessence. In this paper we propose a new cosmological scenario where radiation and baryons are conserved, while the dark energy component is decaying into cold dark matter (CDM). The dilution of CDM particles, attenuated with respect to the usual $a^{-3}$ scaling due to the interacting process, is characterized by a positive parameter $\epsilon$, whereas the dark energy satisfies the equation of state $p_x=\omega \rho_x$ ($\omega < 0$). We carry out a joint statistical analysis involving recent observations from type Ia supernovae, baryon acoustic oscillation peak, and Cosmic Microwave Background shift parameter to check the observational viability of the coupled quintessence scenario here proposed.Comment: 7 pages, 7 figures. Minor corrections to match published versio

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Note on linearized “new massive gravity” in arbitrary dimensions

Dalmazi

Santos

2013

Phys. Rev. D

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By means of a triple master action we deduce here a linearized version of the "New Massive Gravity" (NMG) in arbitrary dimensions. The theory contains a 4th-order and a 2nd-order term in derivatives. The 4th-order term is invariant under a generalized Weyl symmetry. The action is formulated in terms of a traceless η µν Ω µνρ = 0 mixed symmetry tensor Ω µνρ = −Ω µρν and corresponds to the massive Fierz-Pauli action with the replacement e µν = ∂ ρ Ω µνρ . The linearized 3D and 4D NMG theories are recovered via the invertible maps Ω µνρ = ǫ

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THE EXISTENCE OF AN OLD QUASAR AT z=3.91 AND ITS IMPLICATIONS FOR Λ(t) DEFLATIONARY COSMOLOGIES

Cunha

Santos

2004

Int. J. Mod. Phys. D

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We investigate some observational constraints on decaying vacuum cosmologies based on the recently discovered old high redshift quasar APM 08279+5255. This object is located at z = 3.91 and has an estimated age of 2-3 Gyr. The class of Λ(t) cosmologies is characterized by a positive β parameter smaller than unity which quantifies the ratio between the vacuum and the total energy density. Assuming the lower limit age (2 Gyr) and that the cold dark matter contributes with Ω M = 0.2 we show that β is constrained to be ≥ 0.07 while for an age of 3 Gyr and Ω M = 0.4 the β parameter must be greater than 0.32. Our analysis includes closed, flat and hyperbolic scenarios, and it strongly suggests that there is no age crisis for this kind of Λ(t) cosmologies. Lower limits to the redshift quasar formation are also briefly discussed to the flat case. For Ω M = 0.4 we found that the redshift formation is constrained by z f ≥ 8.0. * jvital@dfte.ufrn.br † rose@dfte.ufrn.br Recent observations from Supernovae (SNe) type Ia strongly suggest that the bulk of energy in the Universe is repulsive and appears like a dark component; an unknown form of energy with negative pressure [in addition to the ordinary dark matter] which is probably of primordial origin [1]. The most natural candidate for dark energy is the cosmological constant (Λ), or equivalently, a perfect fluid obeying the equation of state, p v = −ρ v , which is usually interpreted as the constant vacuum energy density of all fields existing in the Universe. The Λ-term is the simplest but not the unique possibility. Other candidates appearing in the literature are: a relic scalar field component (SFC) which is slowly rolling down its potencial [2], a decaying vacuum energy density, or a time varying Λ-term [3], the so-called "X-matter", an extra component [4] characterized by an equation of state p x = ωρ x(XCDM), and the Chaplygin type gas whose equation of state is p = −A/ρ α , where A and α are positive constants [5] (see also Lima [6] for a quick review). On the other hand, the existence of old high-redshift objects is one of the best methods for constraining the age of the Universe, as well the basic cosmological parameters [7]. Such objects also provide an important key for determining the first epoch of galaxy formation. In this connection, quasars are among the most luminous objects known in the universe and their prominent emission-lines contains valuable information to estimate their ages. The recently reported age estimates of the APM 08279+5255 quasar with a lower limit of 2-Gyr-old at redshift z = 3.91 is therefore a particularly interesting event [8]. In this article we investigate some cosmological implications from the existence of this quasar to a large class of decaying vacuum cosmologies proposed by Lima and collaborators [9]. Some constraints on the first epoch of quasar formation are also discussed.

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R. C. Santos

Accelerating cold dark matter cosmology (Ω _Λ ≡ 0)

An accelerating cosmology without dark energy

New coupled quintessence cosmology

Note on linearized “new massive gravity” in arbitrary dimensions

THE EXISTENCE OF AN OLD QUASAR AT z=3.91 AND ITS IMPLICATIONS FOR Λ(t) DEFLATIONARY COSMOLOGIES

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About

R. C. Santos

Accelerating cold dark matter cosmology (Ω Λ ≡ 0)

An accelerating cosmology without dark energy

New coupled quintessence cosmology

Note on linearized “new massive gravity” in arbitrary dimensions

THE EXISTENCE OF AN OLD QUASAR AT z=3.91 AND ITS IMPLICATIONS FOR Λ(t) DEFLATIONARY COSMOLOGIES

Contact Info

Product

Resources

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Accelerating cold dark matter cosmology (Ω _Λ ≡ 0)