You are here: Foswiki>Cosmo Web>WebPreferences>CosmoProjectsBrief (revision 7)EditAttach
<< WebHome


Cosmology past and ongoing projects in Toruñ - brief summary for main page

include starts here

Shape of the Universe

RBSG08 image metric parameters image Scientific models of the Universe are intended to satisfy the Einstein field equations, that roughly speaking, state that curvature = density and that mass density curves space. The models allow many different sorts of spaces, which have the local property called a metric (a sort of rule for locally measuring distances, that determines curvature) and have global properties that define them, such as topology. Together curvature and topology can be described as shape. The metric of the standard Universe model has many parameters such as the Hubble parameter, the baryon density parameter, the baryonic and non-baryonic dark matter density parameter \Omega_m, and the dark energy parameter \Omega_\Lambda. This standard model is oversimplified: it assumes that for the chosen separation of spacetime into space and time coordinates, the Universe is the same everywhere (homogeneous) in space at a given time coordinate.

Density fluctuations and galaxy formation

But the Universe is not perfectly the same everywhere in space - even when the Universe was just a few hundred thousand years old, some regions were more dense and some were less dense. The more dense regions eventually collapsed under their own weight, via gravity, and formed galaxies, stars, and planets. These fluctuations are not just interesting for galaxy formation, they are also useful for measuring the curvature of space. Density fluctuations on the smaller scales (up to about 1 Mpc, a few million light-years) collapsed gravitationally, forming galaxy clusters and galaxies in which stars and planets formed. Comparing observations of galaxies and galaxy clusters to the cosmic microwave background and separating the two effects is a major theme of the observational aspects of the OCRA program using our 32m radio telescope.

A more accurate metric

During the epoch of galaxy formation, the Universe switched from nearly homogeneous to very inhomogeneous, so a more accurate metric is needed, according to which mass density is allowed to curve space. With a better metric, "dark energy" is not needed, and instead seems to be a misinterpretation of the epoch of structure formation if inhomogeneous curvature is ignored in interpreting observations. The corresponding inhomogeneous metric can be measured using shifts in the baryonic acoustic oscillation peak location.


See also CosmoProjectsOld
Topic attachments
I Attachment Action Size DateSorted ascending Who Comment
metric_par.jpgjpg metric_par.jpg manage 55.8 K 14 Jul 2010 - 02:03 BoudRoukema ArXiv:0106135
Edit | Attach | Print version | History: r8 < r7 < r6 < r5 | Backlinks | View wiki text | Edit WikiText | More topic actions...
Topic revision: r7 - 16 Feb 2015, BoudRoukema
 
This site is powered by FoswikiCopyright © CC-BY-SA by the contributing authors. All material on this collaboration platform is copyrighted under CC-BY-SA by the contributing authors unless otherwise noted.
Ideas, requests, problems regarding Foswiki? Send feedback