Browsing by Author "Kumar, A."

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    Neutral hydrogen at high redshifts as a probe of structure formation
    (Indian Academy of Sciences, 1995-06-10) Kumar, A.; Subramanian, Kandaswamy; Padmanabhan, T.
    Structure formation at < 10.0 can be detected and studied using the 21 cm line emission from the neutral hydrogen. Two of us (Suramanian & Padmanabhan 1993, Paper I) had earlier computed the expected abundance of Procrustes as a function of the flux density a function of the flux density at various redshifts, in the detail how the HI line profile from a single spherically symmetric protocluster evolves as it decouples from hubble expansion and colapses. We find peak fluxes of the HI line profile to be typically of order 0.4-0.8 mJy while the widths (FWHM) are of order 0.6-1.5 Mhz. Such protoclusters could be detectable by the Giant Metrewave Radio Telescope (GMRT) which is being built in India.
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    Neutral hydrogen at high redshifts as a probe of structure formation- II. Line profile of a protocluster
    (Wiley-Blackwell, 1994-09-05) Kumar, A.; Padmanabhan, T.; Subramanian, Kandaswamy
    The formation of structures at z ≤ 10.0 can be probed using the 21-cm line emisssion from the neutral hydrogen. Two of us (KS and TP, Paper I) previously computed the expected abundance of protoclusters as a function of the flux density at various redshifts, in the cold dark matter (CDM) and the hot dark matter (HDM) models. As a complement to Paper I, here we work out in detail how the H1 line profile from a spherically symmetric protocluster evolves as it decouples from Hubble expansion structures form hierarchically. Neutral hydrogen, in the small-scale clumps that from the protocluster, is the source of H1line profile in this model are typically of order 0.5-0.7 mJy, while the widths (FWHM) are of order 0.3-1.8 MHz. The major uncertainty in our calculations is the fraction of mass of the protocluster in the form of neutral hydrogen. If the neutral hydrogen fraction f is of the order of the value we have adopted (f=0.025) in our calculations or greater, then a typical protocluster could indeed be detectable by future facilities, like the Giant Metrewave Radio Telescope (GMRT) which is currently being built in India. If the neutral hydrogen fraction is much less than the value we have adopted, then a more sensitive instrument is needed to detect the H1 line emission from a typical protocluster.