📝 SummarXiv

Abstract

We report Giant Metrewave Radio Telescope (GMRT) \hii\ imaging of NGC\,4141, the host galaxy of FRB\,20250316A at $z=0.0063$. Our GMRT \hii\ images have spatial resolutions, at $z\approx0.0063$, of $\approx0.48-8.0$~kpc, and find evidence for (i)~a companion galaxy, LEDA\,2582852, to the south-west, (ii)~a nearby (27-kpc distant) H{\sc{i}} cloud to the south-west, (iii)~disturbances in the H{\sc{i}} distributions of both NGC\,4141 and LEDA\,2582852, and (iv)~high H{\sc{i}} column densities in the south-western outskirts of NGC\,4141. A Sloan Digital Sky Survey spectrum shows evidence for a low metallicity and a high star-formation rate (SFR) surface density activity in the south-western disk of NGC\,4141, while H$\alpha$-based SFR estimates over the last 10~Myr are higher than radio-based SFRs over the last 100~Myr. The above evidence indicates that NGC\,4141 has recently acquired metal-poor gas, via either a merger or accretion, that resulted in the south-western starburst and that may have also triggered large-scale star-formation activity in NGC\,4141, resulting in the formation of the stellar progenitor of FRB\,20250316A and the other transients. Our highest-resolution (480~pc) GMRT H{\sc{i}} 21\,cm image finds no H{\sc{i}} 21\,cm emission from the location of FRB\,20250316A or the nearby star-forming region, suggesting that most of the H{\sc{i}} here has been either ionized or converted into the molecular phase. Our non-detection of continuum emission at the location of FRB\,20250316A yields the $3\sigma$ upper limit $<3.2\times10^{25}$~erg~s$^{-1}$~Hz$^{-1}$, on the 1.4~GHz specific luminosity of a putative persistent radio source associated with FRB\,20250316A, one of the strongest constraints on the radio luminosity of such an associated persistent radio source.