Unified Dark Matter and Dark Energy in a model of Non-Canonical Scalar-Tensor Theory

Abstract

We consider a model of non-canonical scalar-tensor theory in which the kinetic term in the Brans-Dicke action is replaced by a non-canonical scalar field Lagrangian L(X, φ)= λ Xα φβ - V(φ) where X = (1/2) ∂μ φ ∂μ φ and α, β and λ are parameters of the model. This can be considered as a simple non-canonical generalization of the Brans-Dicke theory with a potential term which corresponds to a special case of this model with the values of the parameter α = 1, β = -1 and λ = 2w_BD where w_BD is the Brans-Dicke parameter. Considering a spatially flat Friedmann-Robertson-Walker Universe with scale factor a(t), it is shown that, in the matter free Universe, the kinetic term λ Xα φβ can lead to a power law solution a(t) tn but the maximum possible value of n turns out to be (1+3)/4 ≈ 0.683. When α ≥ 18, this model can lead to a solution a(t) t2/3, thereby mimicking the evolution of scale factor in a cold dark matter dominated epoch with Einstein's General Relativity (GR). With the addition of a linear potential term V(φ) = V0φ, it is shown that this model mimics the standard model type evolution of the Universe. The larger the value of α, the closer the evolution of a(t) in this model to that in the model based on Einstein's GR. The purpose of this paper is to demonstrate that this model with a linear potential can mimic the GR based model. However, with an appropriate choice of the potential V(φ), this model can provide a unified description of both dark matter and dynamical dark energy, as if it were based on Einstein's GR.

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