Multiwavelength Analysis of Six Luminous, Fast Blue Optical Transients

Abstract

We present multiwavelength observations and analysis of six luminous fast blue optical transients (LFBOTs) discovered in Zwicky Transient Facility (ZTF) survey data. We identified these LFBOTs from their fast light-curve evolution (t1/2≤ 12 d), blue colors at peak brightness (g-r≤-0.5 mag), a visible host galaxy, high optical luminosity (Mg<-20), and an X-ray or radio detection. With the exception of AT2024aehp (ZTF24abygbss), these transients exhibit peaks in their 10\,GHz radio light curves at trest ≈ 50-100 d, with peak radio luminosities ranging from 1038-1040 erg s-1. Modeling the radio emission as synchrotron radiation indicates a fast (v=0.1-0.3c) shock in a dense (ne≈103-104 cm-3) medium. The X-ray emission varies by ≈2 orders of magnitude in luminosity (1042-1044 erg s-1) at trest20 d. Analysis of the host-galaxy photometry and spectroscopy for each transient shows that they are predominantly nonnuclear (a few kpc offset) with star-forming host galaxies of stellar masses 109-1011 ,M. Unlike all other LFBOTs to date, AT2024aehp exhibited a luminous (M<-19 mag) plateau in the optical light curve; spectra during this plateau phase showed a featureless blue continuum. The 6-15 GHz radio emission of AT2024aehp brightened by over an order of magnitude from trest ≈70 d to trest ≈130 d. The mostly consistent radio behavior between optically selected LFBOTs implies a similar circumburst medium, leading us to prefer a progenitor scenario in which mass is lost in a consistent way shortly prior to the terminal event, such as a massive star merging with a compact object.