The 'spectral index-flux density relation' for extragalactic radio sources selected at metre and decametre wavelengths

Abstract

We use the recent releases of sensitive VLA/LOFAR large-area surveys at 340 MHz and 54 MHz, in conjunction with the 1.4 GHz NVSS, to accurately determine the `spectral index - flux density relation' (α - S) for extragalactic radio sources selected at metre and decametre wavelengths, the latter for the first time. This newly determined α - S 340~MHz relation shows a progressive flattening of α median towards lower flux densities, starting from its steepest value (peak)occurring near S 340~MHz 1-2 Jy. This resolves the controversy extant in the literature since the 1980s. The α - S 54~MHz relation, too, shows a spectral index flattening with decreasing flux density which, however, is significantly milder and the relation is less sharply peaked than that found at 340 MHz. A possible reason for the difference could be that the 54 MHz sample has a distinctly stronger/conspicuous presence ( at 20% level) of very steep spectrum sources having α541400 < -1.3, most of which are probably associated with clusters of galaxies.