James Webb Space Telescope Feed Post


Literature
Date: 10/16/2024

Harvard ADS: New JWST redshifts for the host galaxies of CDF-S XT1 and XT2: understanding their nature


Paper abstract: CDF-S XT1 and XT2 are considered two "canonical" extragalactic fast X-ray transients (FXTs). In this work, we report new constraints on both FXTs, based on recent JWST NIRCam and MIRI photometry, as well as NIRspec spectroscopy for CDF-S XT2 that allow us to improve our understanding of their distances, energetics, and host galaxy properties compared to the pre-JWST era. We use the available HST and JWST archival data to determine the host properties and constrain the energetics of each FXT based on spectral energy distribution (SED) photometric fitting. The host of CDF-S XT1 is now constrained to lie at z_{phot}{=}2.76_{-0.13}^{+0.21}, implying a host absolute magnitude M_{R}=-19.14 mag, stellar mass M_{*}=2.8e8 M_\odot, and star formation rate SFR=0.62 M_\odot~yr^{-1}. These properties lie at the upper end of previous estimates, leaving CDF-S XT1 with a peak X-ray luminosity of L_{X,peak}=2.8e47 erg s^{-1}. We argue that the best progenitor scenario for XT1 is a low-luminosity gamma-ray burst (GRB), although we do not fully rule out a proto-magnetar association or a jetted tidal disruption event involving a white dwarf and an intermediate-massive black hole. In the case of CDF-S XT2, JWST imaging reveals a new highly obscured component of the host galaxy, previously missed by HST, while NIRspec spectroscopy securely places the host at z_{spec}{=}3.4598{\pm}0.0022. The new redshift implies a host with M_{R}=-21.76 mag, M_{*}=5.5e10 M_\odot, SFR=160 M_\odot yr^{-1}, and FXT L_{X,peak}=1.4e47 erg s^{-1}. The revised energetics, similarity to X-ray flash event light curves, small host offset, and high host SFR favor a low-luminosity collapsar progenitor for CDF-S XT2. While these HST and JWST observations shed light on the host galaxies of XT1 and XT2, and by extension, on the nature of FXTs, a unique explanation for both sources remains elusive.