Abstract
We study the effect of different feedback prescriptions on the properties of
the low redshift ($złeq1.6$) Ly$\alpha$ forest using a selection of
hydrodynamical simulations drawn from the Sherwood simulation suite. The
simulations incorporate stellar feedback, AGN feedback and a simplified scheme
for efficiently modelling the low column density Ly$\alpha$ forest. We confirm
a discrepancy remains between Cosmic Origins Spectrograph (COS) observations of
the Ly$\alpha$ forest column density distribution function (CDDF) at $z \simeq
0.1$ for high column density systems ($N_HI>10^14\rm\,cm^-2$), as
well as Ly$\alpha$ velocity widths that are too narrow compared to the COS
data. Stellar or AGN feedback -- as currently implemented in our simulations --
have only a small effect on the CDDF and velocity width distribution. We
conclude that resolving the discrepancy between the COS data and simulations
requires an increase in the temperature of overdense gas with $\Delta=4$--$40$,
either through additional He$\,II\ $ photo-heating at $z>2$ or
fine-tuned feedback that ejects overdense gas into the IGM at just the right
temperature for it to still contribute significantly to the Ly$\alpha$ forest.
Alternatively a larger, currently unresolved turbulent component to the line
width could resolve the discrepancy.
Users
Please
log in to take part in the discussion (add own reviews or comments).