عنوان مجله
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INTERNATIONAL JOURNAL OF MODERN PHYSICS D
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چکیده
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In this research, we construct Kaniadakis holographic dark energy (KHDE) model within
a nonflat Universe by considering the Friedmann–Robertson–Walker (FRW) metric with
open and closed spatial geometries. The Kaniadakis entropy is indeed a one-parameter
generalization of the classical Boltzmann–Gibbs–Shannon entropy which emerges from a
coherent and self-consistent relativistic statistical theory. We therefore investigate cosmic
evolution by employing the density parameter of the dark energy (DE), the equationof-state (EoS) parameter and the deceleration parameter (DP). The transition from
decelerated to accelerated expanding phase for the KHDE Universe is explained through
dynamical behavior of DP. With the classification of matter- and DE-dominated epochs,
we find that the Universe thermal history can be defined through the KHDE scenario,
and moreover, a phantom regime is experienceable. The model parameters are constrained by applying the newest 30 data cases of H(z) measurements, over the redshift
span 0.07 ≤ z ≤ 2.36, and the distance modulus measurement of the recent Union 2.1
data set of type Ia supernovae. The classical stability of KHDE model has also been
addressed.
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