2 research outputs found
Distinguishing reionization models using the largest cluster statistics of the 21-cm maps
The evolution of topology and morphology of ionized or neutral hydrogen
during different stages of the Epoch of Reionization (EoR) have the potential
to provide us a great amount of information about the properties of the
ionizing sources during this era. We compare a variety of reionization source
models in terms of the geometrical properties of the ionized regions. We show
that the percolation transition in the ionized hydrogen, as studied by tracing
the evolution of the Largest Cluster Statistics (LCS), is a robust statistic
that can distinguish the fundamentally different scenarios -- inside-out and
outside-in reionization. Particularly, the global neutral fraction at the onset
of percolation is significantly higher for the inside-out scenario as compared
to that for the outside-in reionization. In complementary to percolation
analysis, we explore the shape and morphology of the ionized regions as they
evolve in different reionization models in terms of the Shapefinders (SFs) that
are ratios of the Minkowski functionals (MFs). The shape distribution can
readily discern the reionization scenario with extreme non-uniform
recombination in the IGM, such as the clumping model. In the rest of the
reionization models, the largest ionized region abruptly grows only in terms of
its third SF - 'length' - during percolation while the first two SFs -
'thickness' and 'breadth' - remain stable. Thus the ionized hydrogen in these
scenarios becomes highly filamentary near percolation and exhibit a
'characteristic cross-section' that varies among the source models. Therefore,
the geometrical studies based on SFs, together with the percolation analysis
can shed light on the reionization sources.Comment: 33 pages, 16 figures, accepted for publication in JCA
Interpreting the HI 21-cm cosmology maps through Largest Cluster Statistics -- I: Impact of the synthetic SKA1-Low observations
We analyse the evolution of the largest ionized region using the topological
and morphological evolution of the redshifted 21-cm signal coming from the
neutral hydrogen distribution during the different stages of reionization. For
this analysis, we use the "Largest Cluster Statistics" - LCS. We mainly study
the impact of the array synthesized beam on the LCS analysis of the 21-cm
signal considering the upcoming low-frequency Square Kilometer Array (SKA1-Low)
observations using a realistic simulation for such observation based on the
21cmE2E-pipeline using OSKAR. We find that bias in LCS estimation is introduced
in synthetic observations due to the array beam. This in turn shifts the
apparent percolation transition point towards the later stages of reionization.
The biased estimates of LCS, occurring due to the effect of the lower
resolution (lack of longer baselines) and the telescope synthesized beam will
lead to a biased interpretation of the reionization history. This is important
to note while interpreting any future 21-cm signal images from upcoming or
future telescopes like the SKA, HERA, etc. We conclude that one may need denser
-coverage at longer baselines for a better deconvolution of the array
synthesized beam from the 21-cm images and a relatively unbiased estimate of
LCS from such images.Comment: 37 pages, 14 figures, text revised, Comments are welcom