Missing Titanium in the Asymmetric Supernova Remnant W49B

Abstract

The progenitor of the W49B supernova remnant is still under debate. One of the candidates is a jet-driven core-collapse supernova. In such a highly asymmetric explosion, a strong α-rich freezeout is expected in local high entropy regions, which should enrich elements synthesized by the capture of α-particles such as 44Ti and 48Cr (decaying to 44Ca and 48Ti, respectively). In the present work, in order to infer the progenitor of the W49B remnant, we constrain the amount of stable Ti (48Ti) synthesized, using the Suzaku observation. We found no firm evidence for the Ti line and set the upper limit of M Ti/M Fe < 8.2 × 10-4 (99\% limit using Xspec) and M Ti/M Fe < 1.9 × 10-3 (99\% limit using SPEX), and thus excluded almost all hypernova/jet-driven supernova models. Our results, as complemented by some previous studies, suggest that a Type Ia supernova from a near-M Ch (Chandrasekhar mass) white dwarf is the most favorable candidate for the origin of W49B. Future observations with X-ray calorimeter missions, such as XRISM, will give us a stronger constraint on the progenitor.