Dynamical analysis of an n - H - T cosmological quintessence real gas model with a general equation of state

Rossen I. Ivanov; Emil M. Prodanov

doi:10.1142/S0217751X18500252

Dynamical analysis of an n - H - T cosmological quintessence real gas model with a general equation of state

Rossen I. Ivanov, Emil M. Prodanov

School of Mathematics and Statistics

Research output: Contribution to journal › Article › peer-review

Abstract

The cosmological dynamics of a quintessence model based on real gas with general equation of state is presented within the framework of a three-dimensional dynamical system describing the time evolution of the number density, the Hubble parameter and the temperature. Two global first integrals are found and examples for gas with virial expansion and van der Waals gas are presented. The van der Waals system is completely integrable. In addition to the unbounded trajectories, stemming from the presence of the conserved quantities, stable periodic solutions (closed orbits) also exist under certain conditions and these represent models of a cyclic Universe. The cyclic solutions exhibit regions characterized by inflation and deflation, while the open trajectories are characterized by inflation in a "fly-by" near an unstable critical point.

Original language	English
Article number	1850025
Journal	International Journal of Modern Physics A
Volume	33
Issue number	3
DOIs	https://doi.org/10.1142/S0217751X18500252
Publication status	Published - 30 Jan 2018

Keywords

Dynamical systems
FRWL cosmology
accelerated expansion
complete integrability
cyclic Universe
inflation
phantom fields
quintessence
real gas

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10.1142/S0217751X18500252

https://arrow.tudublin.ie/scschmatart/262Licence: CC BY-NC-SA

Cite this

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title = "Dynamical analysis of an n - H - T cosmological quintessence real gas model with a general equation of state",

abstract = "The cosmological dynamics of a quintessence model based on real gas with general equation of state is presented within the framework of a three-dimensional dynamical system describing the time evolution of the number density, the Hubble parameter and the temperature. Two global first integrals are found and examples for gas with virial expansion and van der Waals gas are presented. The van der Waals system is completely integrable. In addition to the unbounded trajectories, stemming from the presence of the conserved quantities, stable periodic solutions (closed orbits) also exist under certain conditions and these represent models of a cyclic Universe. The cyclic solutions exhibit regions characterized by inflation and deflation, while the open trajectories are characterized by inflation in a {"}fly-by{"} near an unstable critical point.",

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T1 - Dynamical analysis of an n - H - T cosmological quintessence real gas model with a general equation of state

AU - Ivanov, Rossen I.

AU - Prodanov, Emil M.

PY - 2018/1/30

Y1 - 2018/1/30

N2 - The cosmological dynamics of a quintessence model based on real gas with general equation of state is presented within the framework of a three-dimensional dynamical system describing the time evolution of the number density, the Hubble parameter and the temperature. Two global first integrals are found and examples for gas with virial expansion and van der Waals gas are presented. The van der Waals system is completely integrable. In addition to the unbounded trajectories, stemming from the presence of the conserved quantities, stable periodic solutions (closed orbits) also exist under certain conditions and these represent models of a cyclic Universe. The cyclic solutions exhibit regions characterized by inflation and deflation, while the open trajectories are characterized by inflation in a "fly-by" near an unstable critical point.

AB - The cosmological dynamics of a quintessence model based on real gas with general equation of state is presented within the framework of a three-dimensional dynamical system describing the time evolution of the number density, the Hubble parameter and the temperature. Two global first integrals are found and examples for gas with virial expansion and van der Waals gas are presented. The van der Waals system is completely integrable. In addition to the unbounded trajectories, stemming from the presence of the conserved quantities, stable periodic solutions (closed orbits) also exist under certain conditions and these represent models of a cyclic Universe. The cyclic solutions exhibit regions characterized by inflation and deflation, while the open trajectories are characterized by inflation in a "fly-by" near an unstable critical point.

KW - Dynamical systems

KW - FRWL cosmology

KW - accelerated expansion

KW - complete integrability

KW - cyclic Universe

KW - inflation

KW - phantom fields

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KW - real gas

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Dynamical analysis of an n - H - T cosmological quintessence real gas model with a general equation of state

Abstract

Keywords

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