TY - JOUR
T1 - A four-dimensional ΛCDM-type cosmological model induced from higher dimensions using a kinematical constraint
AU - Akarsu, Özgür
AU - Dereli, Tekin
PY - 2013/6
Y1 - 2013/6
N2 - A class of cosmological solutions of higher dimensional Einstein field equations with the energy-momentum tensor of a homogeneous, isotropic fluid as the source are considered with an anisotropic metric that includes the direct sum of a 3-dimensional (physical, flat) external space metric and an n-dimensional (compact, flat) internal space metric. A simple kinematical constraint is postulated that correlates the expansion rates of the external and internal spaces in terms of a real parameter λ. A specific solution for which both the external and internal spaces expand at different rates is given analytically for n=3. Assuming that the internal dimensions were at Planck length scales when the external space starts with a Big Bang (t=0), they expand only 1.49 times and stay at Planck length scales even in the present age of the universe (13.7 Gyr). The effective four dimensional universe would exhibit a behavior consistent with our current understanding of the observed universe. It would start in a stiff fluid dominated phase and evolve through radiation dominated and pressureless matter dominated phases, eventually going into a de Sitter phase at late times.
AB - A class of cosmological solutions of higher dimensional Einstein field equations with the energy-momentum tensor of a homogeneous, isotropic fluid as the source are considered with an anisotropic metric that includes the direct sum of a 3-dimensional (physical, flat) external space metric and an n-dimensional (compact, flat) internal space metric. A simple kinematical constraint is postulated that correlates the expansion rates of the external and internal spaces in terms of a real parameter λ. A specific solution for which both the external and internal spaces expand at different rates is given analytically for n=3. Assuming that the internal dimensions were at Planck length scales when the external space starts with a Big Bang (t=0), they expand only 1.49 times and stay at Planck length scales even in the present age of the universe (13.7 Gyr). The effective four dimensional universe would exhibit a behavior consistent with our current understanding of the observed universe. It would start in a stiff fluid dominated phase and evolve through radiation dominated and pressureless matter dominated phases, eventually going into a de Sitter phase at late times.
KW - Cosmological equation of state
KW - Kaluza-Klein cosmology
KW - Late-time acceleration
UR - http://www.scopus.com/inward/record.url?scp=84877818246&partnerID=8YFLogxK
U2 - 10.1007/s10714-013-1521-1
DO - 10.1007/s10714-013-1521-1
M3 - Article
AN - SCOPUS:84877818246
SN - 0001-7701
VL - 45
SP - 1211
EP - 1226
JO - General Relativity and Gravitation
JF - General Relativity and Gravitation
IS - 6
ER -