Type Ia supernova rate at $z \sim 0.1$
/ Authors
D.Hardin, C.Afonso, C.Alard, J.N.Albert, A.Amadon, J.Andersen, R.Ansari, E.Aubourg, P.Bareyre, F.Bauer
and 37 more authors
J.-P.Beaulieu, G.Blanc, A.Bouquet, S.Char, X.Charlot, F.Couchot, C.Coutures, F.Derue, R.Ferlet, J.F.Glicenstein, B.Goldman, A.Gould, D.Graff, M.Gros, J.Haissinski, J.C.Hamilton, J. Kat, A.Kim, T.Lasserre, E.Lesquoy, C.Loup, C.Magneville, B.Mansoux, J.-B.Marquette, E.Maurice, A.Milsztajn, M.Moniez, N.Palanque-Delabrouille, O.Perdereau, L.Pr'evot, N.Regnault, J.Rich, M.Spiro, A.Vidal-Madjar, L.Vigroux, S.Zylberajch, the H.E.S.S. Collaboration
/ Abstract
We present the EROS nearby supernova ($z \sim 0.02 - 0.2$) search and the analysis of the first year of data (1997). A total of 80 square degrees were surveyed. Eight supernov{\ae} were detected, four of which were spectroscopically identified as type Ia supernov{\ae}. The search efficiency was determined with a Monte-Carlo simulation taking into account the efficiencies for both supernova detection and host galaxy identification. Assuming that for a given galaxy the supernova rate is proportional to the galactic luminosity, we compute a type Ia supernova explosion rate of: ${\cal R} = 0.44 {}_{-0.21}^{+0.35} {}_{-0.07}^{+0.13} h^2: / 10^{10} \lbsun / 100 {\rm yrs}$ at an average redshift of $\sim 0.1$ where the errors are respectively statistical and systematic (type misidentification included).
Journal: arXiv: Astrophysics