Associated 21-cm absorption towards the cores of radio galaxies

TL;DR

This study used GMRT observations to investigate H{ extsc i} absorption in radio galaxy cores, finding a lower detection rate in extended sources compared to CSS and GPS sources, with no strong correlation to source size.

Contribution

It provides the first comparative analysis of H{ extsc i} absorption detection rates between extended radio galaxies and compact sources using high-resolution data.

Findings

H{ extsc i} absorption detected in only one of 16 extended sources

Detection rate of H{ extsc i} in extended sources is significantly lower than in CSS/GPS sources

No significant correlation between H{ extsc i} column density and source size

Abstract

We present the results of Giant Metrewave Radio Telescope (GMRT) observations to detect H{\sc i} in absorption towards the cores of a sample of radio galaxies. From observations of a sample of 16 sources, we detect H{\sc i} in absorption towards the core of only one source, the FR\,II radio galaxy 3C\,452 which has been reported earlier by Gupta & Saikia (2006a). In this paper we present the results for the remaining sources which have been observed to a similar optical depth as for a comparison sample of compact steep-spectrum (CSS) and giga-hertz peaked spectrum (GPS) sources. We also compile available information on H{\sc i} absorption towards the cores of extended radio sources observed with angular resolutions of a few arcsec or better. The fraction of extended sources with detection of H{\sc i} absorption towards their cores is significantly smaller (7/47) than the fraction of H{\sc i} detection towards CSS and GPS objects (28/49). For the cores of extended sources, there is no evidence of a significant correlation between H{\sc i} column density towards the cores and the largest linear size of the sources. The distribution of the relative velocity of the principal absorbing component towards the cores of extended sources is not significantly different from that of the CSS and GPS objects. However, a few of the CSS and GPS objects have blue-shifted components $\gapp$1000 km s$^{-1}$, possibly due to jet-cloud interactions. With the small number of detections towards cores, the difference in detection rate between FR\,I (4/32) and FR\,II (3/15) sources is within the statistical uncertainties.