1111.3227 (Katherine Jones-Smith)
Katherine Jones-Smith
In the framework of Newtonian cosmology or general relativity it is simple to
derive a mass scale below which collapsed structures are relatively devoid of
baryons. We examine how the inclusion of a chameleon scalar field affects this
baryonic Jeans mass, bearing in mind both the canonical case of a
gravitational-strength coupling between the scalar field and matter, as well as
the strong coupling regime wherein the coupling is very large. We find that
baryon effects persist down to smaller scales in a chameleon theory than they
do in ordinary general relativity, especially in the case of strong coupling.
Several potentially observable consequences of this are identified.
View original:
http://arxiv.org/abs/1111.3227
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