Abstract
Comparing the ejecta velocities at maximum brightness and narrow circumstellar/interstellar Na D absorption line profiles of a sample of 23 Type Ia supernovae (SNe Ia), we determine that the properties of SN Ia progenitor systems and explosions are intimately connected. As demonstrated by Sternberg et al. (2011), half of all SNe Ia with detectable Na D absorption at the host-galaxy redshift in high-resolution spectroscopy have Na D line profiles with significant blueshifted absorption relative to the strongest absorption component, which indicates that a large fraction of SN Ia progenitor systems have strong outflows. In this study, we find that SNe Ia with blueshifted circumstellar/interstellar absorption systematically have higher ejecta velocities and redder colors at maximum brightness relative to the rest of the SN Ia population. This result is robust at a 98.9-99.8% confidence level, providing the first link between the progenitor systems and properties of the explosion. This finding is further evidence that the outflow scenario is the correct interpretation of the blueshifted Na D absorption, adding additional confirmation that some SNe Ia are produced from a single-degenerate progenitor channel. An additional implication is that either SN Ia progenitor systems have highly asymmetric outflows that are also aligned with the SN explosion or SNe Ia come from a variety of progenitor systems where SNe Ia from systems with strong outflows tend to have more kinetic energy per unit mass than those from systems with weak or no outflows.
Highlights
INTRODUCTIONType Ia supernovae (SNe Ia) appear to come from carbon–oxygen white dwarfs (WDs) in a binary system (Hoyle & Fowler 1960); it is still unknown if they result from the merger of two WDs (the “double-degenerate” scenario; Iben & Tutukov 1984; Webbink 1984) or a single WD accreting material from a non-degenerate companion (the “single-degenerate” scenario; Whelan & Iben 1973; Iben & Tutukov 1996). Howell (2011) and Wang & Han (2012) present recent reviews on the subject
Type Ia supernovae (SNe Ia) appear to come from carbon–oxygen white dwarfs (WDs) in a binary system (Hoyle & Fowler 1960); it is still unknown if they result from the merger of two WDs or a single WD accreting material from a non-degenerate companion
Regardless of why there is not an obvious phase bias in the F12 sample, it does not appear that the Blueshifted sample is missing a significant number of potential outflow systems because the Na in the circumstellar material (CSM) was fully ionized at the time of spectroscopy
Summary
Type Ia supernovae (SNe Ia) appear to come from carbon–oxygen white dwarfs (WDs) in a binary system (Hoyle & Fowler 1960); it is still unknown if they result from the merger of two WDs (the “double-degenerate” scenario; Iben & Tutukov 1984; Webbink 1984) or a single WD accreting material from a non-degenerate companion (the “single-degenerate” scenario; Whelan & Iben 1973; Iben & Tutukov 1996). Howell (2011) and Wang & Han (2012) present recent reviews on the subject. Detections of variable Na D in SNe 1999cl (Blondin et al 2009) and 2007le (Simon et al 2009) have been made—both SNe Ia with relatively high Si ii λ6355 velocities, vSi ii, near maximum brightness. The connection can be interpreted as the result of an asymmetric explosion, where different viewing angles result in different velocities at early and late times (Maeda et al 2010). There has been tenuous evidence that SNe Ia with variable Na D tend to have higher-velocity ejecta To determine if this trend is happenstance, we use the large Foley et al (2011, hereafter FSK11) collection of maximumbrightness Si ii λ6355 velocities for SNe Ia, vS0i ii, supplemented by additional data presented here to both expand the S11 sample and assign ejecta velocities to that expanded sample. The F12 sample, is comprised of all spectroscopically normal SNe Ia with highresolution spectroscopy and a measurement of vS0i ii
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