High-Velocity Line Forming Regions in the Type Ia Supernova 2009ig

G. H. Marion (1); Jozsef Vinko (2; 3); J. Craig Wheeler (2); Ryan; J. Foley (1; 4); Eric Y. Hsiao (5); Peter J. Brown (6); Peter Challis (1),; Alexei V. Filippenko (7); Peter Garnavich (8); Robert P. Kirshner (1); Wayne; B. Landsman (9); Jerod T. Parrent (10; 11); Tyler A. Pritchard (12); Peter; W. A. Roming (12; 13); Jeffrey M. Silverman (2); Xiaofeng Wang (14; 6); ((1) Harvard-Smithsonian Center for Astrophysics; (2) University of Texas at; Austin; (3) Department of Optics; Quantum Electronics; University of; Szeged; (4) Clay Fellow; Harvard-Smithsonian Center for Astrophysics; (5); Carnegie Observatories; Las Campanas Observatory; (6) Mitchell Institute,; Texas A&M University; (7) Department of Astronomy; University of California,; (8) Department of Physics; University of Notre Dame; (9) Adnet Systems; NASA; Goddard Space Flight Center; (10) Las Cumbres Observatory Global Telescope; Network; (11) Department of Physics & Astronomy; Dartmouth College; (12); Department of Astronomy & Astrophysics; Penn State University; (13) Space; Science & Engineering Division; Southwest Research Institute; (14) Physics; Department; Tsinghua Center for Astrophysics (THCA))

arXiv:1302.3537·astro-ph.CO·June 15, 2015

High-Velocity Line Forming Regions in the Type Ia Supernova 2009ig

G. H. Marion (1), Jozsef Vinko (2, 3), J. Craig Wheeler (2), Ryan, J. Foley (1, 4), Eric Y. Hsiao (5), Peter J. Brown (6), Peter Challis (1),, Alexei V. Filippenko (7), Peter Garnavich (8), Robert P. Kirshner (1), Wayne, B. Landsman (9), Jerod T. Parrent (10, 11)

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TL;DR

This paper presents detailed spectroscopic observations of SN 2009ig, revealing the evolution of high-velocity and photospheric absorption features, and provides insights into the transition from high-velocity to photospheric-velocity phases in Type Ia supernovae.

Contribution

It offers the first complete observational sequence of the transition from high-velocity to photospheric-velocity features in a Type Ia supernova, linking spectral line profiles to specific phases.

Findings

01

SN 2009ig exhibits unusually numerous high-velocity features.

02

The transition from HVF to PVF occurs over a well-defined phase.

03

Early spectra show detached HVF with a constant velocity separation.

Abstract

We report measurements and analysis of high-velocity (> 20,000 km/s) and photospheric absorption features in a series of spectra of the Type Ia supernova (SN) 2009ig obtained between -14d and +13d with respect to the time of maximum B-band luminosity. We identify lines of Si II, Si III, S II, Ca II and Fe II that produce both high-velocity (HVF) and photospheric-velocity (PVF) absorption features. SN 2009ig is unusual for the large number of lines with detectable HVF in the spectra, but the light-curve parameters correspond to a slightly overluminous but unexceptional SN Ia (M_B = -19.46 mag and Delta_m15 (B) = 0.90 mag). Similarly, the Si II lambda_6355 velocity at the time of B-max is greater than "normal" for a SN Ia, but it is not extreme (v_Si = 13,400 km/s). The -14d and -13d spectra clearly resolve HVF from Si II lambda_6355 as separate absorptions from a detached line forming…

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