Empirical estimation of host galaxy dispersion measure towards well localized fast radio bursts

Abstract

Fast radio bursts (FRBs) are very energetic pulses of unknown physical origin. These can be used to study the intergalactic medium (IGM) thanks to their dispersion measure (DM). The DM has several contributions that can be measured (or estimated), including the contribution from the host galaxy itself, DMhost. In this work, we empirically estimate DMhost for a sample of 12 galaxy hosts, using a direct method based solely on the properties of the host galaxies themselves (DMhostdir). We use VLT/MUSE observations of the FRB hosts for estimating DMhostdir. The method relies on estimating the DM contribution of both the FRB host galaxy's interstellar medium and its halo separately. For comparison purposes, we also provide an alternative indirect method to estimate DMhost based on the Macquart relation (DMhostmq). We find an average <DMhost> = 80+/-11 pc/cc with a standard deviation of 38 pc/cc (in the rest-frame) based on our direct method, with a systematic uncertainty of 30%. We report positive correlations between DMhost and both the stellar masses and the star-formation rates of their host galaxies. In contrast, we do not find any strong correlation between DMhost and neither redshift nor the projected distances to the FRB hosts centers. Finally, we do not find any strong correlation between DMhostdir and DMhostmq, although their average values are consistent. Our reported correlations could be used to improve the priors used in establishing DMhost for individual FRBs. Similarly, such correlations and the lack of a strong redshift evolution can be used to constrain models for the progenitor of FRBs. However, the lack of a DMhostdir and DMhostmq correlation indicates that there may still be contributions to the DM of FRBs not included in our modeling, e.g. large DMs from the FRB progenitor and/or intervening large-scale structures not accounted for in DMhostmq.