2017
DOI: 10.3847/1538-4357/aa84b2
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Light and Color Curve Properties of Type Ia Supernovae: Theory Versus Observations

Abstract: We study optical light curve(LC) relations of type Ia supernovae(SNe Ia) for their use in cosmology using high-quality photometry published by the Carnegie-Supernovae-Project(CSP-I). We revisit the classical luminosity-decline-rate (∆m 15 ) relation and the Lira-relation, as well as investigate the time evolution of the (B −V ) color and B(B −V ), which serves as the basis of the color-stretch relation and Color-MAGnitude-Intercept-Calibrations(CMAGIC). Our analysis is based on explosion and radiation transpor… Show more

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Cited by 102 publications
(210 citation statements)
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References 134 publications
(259 reference statements)
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“…As shown in Hoeflich et al (2017), the offset is relatively stable over the period of the Lira relation for models of different brightness. We note that a similar result was also found from the detailed analysis of the low-luminosity SN 1986G (Ashall et al 2016b).…”
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confidence: 82%
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“…As shown in Hoeflich et al (2017), the offset is relatively stable over the period of the Lira relation for models of different brightness. We note that a similar result was also found from the detailed analysis of the low-luminosity SN 1986G (Ashall et al 2016b).…”
mentioning
confidence: 82%
“…While ρ tr is the primary driver of the luminosity vs. decline-rate relation, ρ c plays an important role for the fasterdeclining SNe Ia which produce smaller amounts of radioactive 56 Ni as compared to normal-luminosity SNe Ia. In SNe with the same ∆m 15 (B) (so-called "twins"), this secondary parameter can lead to changes in the peak brightness of 0.05 mag for normalbrightness SNe Ia, and by up to 0.7 mag in the case of twin subluminous SNe Ia (Hoeflich et al 2017). Höflich et al (2010) studied the variation in brightness between the peak and the tail (roughly the brightness at day +40) caused by variations in progenitor mass, metallicity, accretion rate,Ṁ, and central density.…”
Section: Variations In Luminositymentioning
confidence: 99%
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“…In time domain astrophysics both types of codes have been throughly used to model many different transient sources including: core collapse supernovae (e.g., Hoflich 1991; Baron et al 1995;Fisher 2000;Mazzali et al 2000;Thomas et al 2011;Jerkstrand et al 2012), thermonuclear supernovae (e.g., Kasen et al 2006;Kromer & Sim 2009;Kerzendorf & Sim 2014;Ashall et al 2016;Hoeflich et al 2017;Goldstein & Kasen 2018;Ashall et al 2018), and more recently kilonova (e.g., Tanaka & Hotokezaka 2013;Smartt et al 2017;Bulla 2019). However, previous work has concentrated on the results obtained from these models, and often E-mail:chris.ashall24@gmail.com neglected to explain the exact modeling method, fitting procedure or associated errors.…”
Section: Introductionmentioning
confidence: 99%