Journal
CANADIAN JOURNAL OF PHYSICS
Volume 99, Issue 11, Pages 991-997Publisher
CANADIAN SCIENCE PUBLISHING
DOI: 10.1139/cjp-2021-0111
Keywords
dark energy; dark matter; Bose-Einstein condensation; modified Chaplygin gas; bulk viscosity
Categories
Ask authors/readers for more resources
This paper investigates viscous cosmological dynamics in the presence of dark matter Bose-Einstein condensation by curved-FRW background. By considering an interacting model with modified Chaplygin gas, the energy density and pressure of dark energy are derived, and cosmological parameters versus redshift parameter are found by fitting with supernova data. The study shows that the universe is currently undergoing an accelerated expansion phase, and explores the stability and instability of the present model with the sound speed parameter.
In this paper, viscous cosmological dynamics are studied in the presence of dark matter Bose-Einstein condensation by curved-FRW background. For this purpose, we use the BEC regime rather than normal dark matter (cold dark matter or barotropic dark matter) with the dark matter equation of state as p(dm) proportional to rho(2)(dm), which arises from the gravitational form. Therefore, we obtain the corresponding continuity equations with the existence of the universe components by considering an interacting model with modified Chaplygin gas. Afterward, we derive the energy density and the pressure of dark energy in terms of the redshift parameter. And then, by introducing a parametrization function and fitting it with 51 supernova data with the likelihood analysis, we find the cosmological parameters versus redshift parameter. In what follows, we plot the corresponding dynamic graphs proportional to redshift, and then we represent that the universe is currently undergoing an accelerated expansion phase. Finally, we explore the stability and the instability of the present model with the sound speed parameter.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available