The rising light curves of Type Ia supernovae

R. E. Firth, M. Sullivan, Avishay Gal-Yam, D. A. Howell, K. Maguire, P. Nugent, A. L. Piro, C. Baltay, U. Feindt, E. Hadjiyksta, R. McKinnon, Eran Oded Ofek, D. Rabinowitz, E. S. Walker

Research output: Contribution to journalArticlepeer-review


We present an analysis of the early, rising light curves of 18 Type Ia supernovae (SNe Ia) discovered by the Palomar Transient Factory and the La Silla-QUEST variability survey. We fit these early data flux using a simple power law (f(t) = alpha x t(n)) to determine the time of first light (t(0)), and hence the rise time (t(rise)) from first light to peak luminosity, and the exponent of the power-law rise (n). We find a mean uncorrected rise time of 18.98 +/- 0.54 d, with individual supernova (SN) rise times ranging from 15.98 to 24.7 d. The exponent n shows significant departures from the simple 'fireball model' of n = 2 (or f(t) proportional to t(2)) usually assumed in the literature. With a mean value of n = 2.44 +/- 0.13, our data also show significant diversity from event to event. This deviation has implications for the distribution of Ni-56 throughout the SN ejecta, with a higher index suggesting a lesser degree of Ni-56 mixing. The range of n found also confirms that the Ni-56 distribution is not standard throughout the population of SNe Ia, in agreement with earlier work measuring such abundances through spectral modelling. We also show that the duration of the very early light curve, before the luminosity has reached half of its maximal value, does not correlate with the light-curve shape or stretch used to standardize SNe Ia in cosmological applications. This has implications for the cosmological fitting of SN Ia light curves.
Original languageEnglish
Pages (from-to)3895-3910
Number of pages16
Issue number4
Early online date9 Dec 2014
StatePublished - Feb 2015


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