Open AccessA Simple Harmonic Universe
Author(s) -
Peter W. Graham,
Bart Horn,
Shamit Kachru,
Surjeet Rajendran,
Gonzalo Torroba
Publication year - 2011
Language(s) - English
Resource type - Reports
DOI - 10.2172/1032771
Subject(s) - gravitational singularity , physics , general relativity , scale factor (cosmology) , cosmology , universe , simple (philosophy) , theoretical physics , semiclassical physics , scale (ratio) , inflaton , classical mechanics , harmonic , quantum cosmology , curvature , quantum , quantum gravity , inflation (cosmology) , quantum mechanics , metric expansion of space , dark energy , mathematics , geometry , philosophy , epistemology
We explore simple but novel bouncing solutions of general relativity that avoid singularities. These solutions require curvature k = +1, and are supported by a negative cosmological term and matter with -1 < w < -1 = 3. In the case of moderate bounces (where the ratio of the maximal scale factor a{sub +} to the minimal scale factor a{sub -} is {Omicron}(1)), the solutions are shown to be classically stable and cycle through an infinite set of bounces. For more extreme cases with large a{sub +} = a{sub -}, the solutions can still oscillate many times before classical instabilities take them out of the regime of validity of our approximations. In this regime, quantum particle production also leads eventually to a departure from the realm of validity of semiclassical general relativity, likely yielding a singular crunch. We briefly discuss possible applications of these models to realistic cosmology
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