N. Nazari-Pooya scite author profile

In this paper, the holographic dark energy model with new infrared cut-off proposed by Granda and Oliveros has been investigated in spatially non flat universe. The dependency of the evolution of equation of state, deceleration parameter and cosmological evolution of Hubble parameter on the parameters of new HDE model are calculated. Also, the statefinder parameters r and s in this model are derived and the evolutionary trajectories in s − r plane are plotted. We show that the evolutionary trajectories are dependent on the model parameters of new HDE model. Eventually, in the light of SNe + BAO + OHD + CMB observational data, we plot the evolutionary trajectories in s − r and q − r planes for best fit values of the parameters of new HDE model.

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Growth of spherical overdensities in scalar–tensor cosmologies

Nazari-Pooya

Malekjani

Pace

et al. 2016

Mon. Not. R. Astron. Soc.

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The accelerated expansion of the universe is a rather established fact in cosmology and many different models have been proposed as a viable explanation. Many of these models are based on the standard general relativistic framework of non-interacting fluids or more recently of coupled (interacting) dark energy models, where dark energy (the scalar field) is coupled to the dark matter component giving rise to a fifth-force. An interesting alternative is to couple the scalar field directly to the gravity sector via the Ricci scalar. These models are dubbed non-minimally coupled models and give rise to a time-dependent gravitational constant. In this work we study few models falling into this category and describe how observables depend on the strength of the coupling. We extend recent work on the subject by taking into account also the effects of the perturbations of the scalar field and showing their relative importance on the evolution of the mass function. By working in the framework of the spherical collapse model, we show that perturbations of the scalar field have a limited impact on the growth factor (for small coupling constant) and on the mass function with respect to the case where perturbations are neglected.

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Generalized Chaplygin gas model: cosmological consequences and statefinder diagnosis

Malekjani¹,

Khodam-Mohammadi²,

Nazari-Pooya³

2011

Astrophys Space Sci

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The generalized Chaplygin gas (GCG) model in spatially flat universe is investigated. The cosmological consequences led by GCG model including the evolution of EoS parameter, deceleration parameter and dimensionless Hubble parameter are calculated. We show that the GCG model behaves as a general quintessence model. The GCG model can also represent the pressureless CDM model at the early time and cosmological constant model at the late time. The dependency of transition from decelerated expansion to accelerated expansion on the parameters of model is investigated. The statefinder parameters r and s in this model are derived and the evolutionary trajectories in s − r plane are plotted. Finally, based on current observational data, we plot the evolutionary trajectories in s − r and q − r planes for best fit values of the parameters of GCG model. It has been shown that although, there are similarities between GCG model and other forms of chaplygin gas in statefinder plane, but the distance of this model from the ΛCDM fixed point in s− r diagram is shorter compare with standard chaplygin gas model.

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Cosmological constraints and cosmic growth factor for ghost dark energy models in varying G $G$ theories

Malekjani

Nazari-Pooya

et al. 2015

Astrophys Space Sci

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N. Nazari-Pooya

Cosmological evolution and statefinder diagnostic for new holographic dark energy model in non flat universe

Growth of spherical overdensities in scalar–tensor cosmologies

Generalized Chaplygin gas model: cosmological consequences and statefinder diagnosis

Cosmological constraints and cosmic growth factor for ghost dark energy models in varying G $G$ theories

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