Are Ti44-Producing Supernovae Exceptional?
Astrophysics
2009-11-11 v2
Abstract
According to standard models supernovae produce radioactive 44Ti, which should be visible in gamma-rays following decay to 44Ca for a few centuries. 44Tiproductionisbelievedtobethesourceofcosmic^{44}Ca,whoseabundanceiswellestablished.Yet,gamma−raytelescopeshavenotseentheexpectedyoungremnantsofcorecollapseevents.The^{44}Timeanlifeof\tau \simeq89yandtheGalacticsupernovarateof\simeq3/100yimply\simeqseveraldetectable^{44}Ti gamma-ray sources, but only one is clearly seen, the 340-year-old Cas A SNR. Furthermore, supernovae which produce much 44TiareexpectedtooccurprimarilyintheinnerpartoftheGalaxy,whereyoungmassivestarsaremostabundant.BecausetheGalaxyistransparenttogamma−rays,thisshouldbethedominantlocationofexpectedgamma−raysources.YettheCasASNRastheonlyonesourceislocatedfarfromtheinnerGalaxy(atlongitude112degree).Weevaluatethesurprisingabsenceofdetectablesupernovaefromthepastthreecenturies.WediscusswhetherourunderstandingofSNexplosions,their^{44}Ti yields, their spatial distributions, and statistical arguments can be stretched so that this apparent disagreement may be accommodated within reasonable expectations, or if we have to revise some or all of the above aspects to bring expectations in agreement with the observations. We conclude that either core collapse supernovae have been improbably rare in the Galaxy during the past few centuries, or 44Ti−producingsupernovaeareatypicalsupernovae.Wealsopresentanewargumentbasedon^{44}Ca/^{40}CaratiosinmainstreamSiCstardustgrainsthatmaycastdoubtonmassive−He−capTypeIsupernovaeasthesourceofmostgalactic^{44}$Ca.
Cite
@article{arxiv.astro-ph/0601039,
title = {Are Ti44-Producing Supernovae Exceptional?},
author = {L. -S. The and D. D. Clayton and R. Diehl and D. H. Hartmann and A. F. Iyudin and M. D. Leising and B. S. Meyer and Y. Motizuki and V. Schonfelder},
journal= {arXiv preprint arXiv:astro-ph/0601039},
year = {2009}
}
Comments
23 pages, 14 figures, accepted for publication in Astronomy and Astrophysics 2006. Correcting the SN type of Tycho in Table B.1. and add its associated references