THE SUBLUMINOUS SUPERNOVA 2007qd: A MISSING LINK IN A FAMILY OF LOW-LUMINOSITY TYPE Ia SUPERNOVAE

We present multi-band photometry and multi-epoch spectroscopy of the peculiar Type Ia supernova (SN Ia) 2007qd, discovered by the SDSS-II Supernova Survey. It possesses physical properties intermediate to those of the peculiar SN 2002cx and the extremely low-luminosity SN 2008ha. Optical photometry indicates that it had an extraordinarily fast rise time of ≲10 days and a peak absolute B magnitude of −15.4 ± 0.2 at most, making it one of the most subluminous SN Ia ever observed. Follow-up spectroscopy of SN 2007qd near maximum brightness unambiguously shows the presence of intermediate-mass elements which are likely caused by carbon/oxygen nuclear burning. Near maximum brightness, SN 2007qd had a photospheric velocity of only 2800 km s−1, similar to that of SN 2008ha but about 4000 and 7000 km s−1 less than that of SN 2002cx and normal SN Ia, respectively. We show that the peak luminosities of SN 2002cx like objects are highly correlated with both their light-curve stretch and photospheric velocities. Its strong apparent connection to other SN 2002cx like events suggests that SN 2007qd is also a pure deflagration of a white dwarf, although other mechanisms cannot be ruled out. It may be a critical link between SN 2008ha and the other members of the SN 2002cx like class of objects.

[1]  J. Wheeler,et al.  Cosmic Explosions in Three Dimensions , 2011 .

[2]  M. Sullivan,et al.  THE SUBLUMINOUS AND PECULIAR TYPE Ia SUPERNOVA PTF 09dav , 2011, 1103.1797.

[3]  D. Kasen,et al.  THERMONUCLEAR.Ia SUPERNOVAE FROM HELIUM SHELL DETONATIONS: EXPLOSION MODELS AND OBSERVABLES , 2010, 1002.2258.

[4]  W. Hillebrandt,et al.  NUCLEOSYNTHESIS IN TWO-DIMENSIONAL DELAYED DETONATION MODELS OF TYPE Ia SUPERNOVA EXPLOSIONS , 2010, 1002.2153.

[5]  R. Nichol,et al.  THE RISE AND FALL OF TYPE Ia SUPERNOVA LIGHT CURVES IN THE SDSS-II SUPERNOVA SURVEY , 2010, 1001.3428.

[6]  W. M. Wood-Vasey,et al.  EARLY- AND LATE-TIME OBSERVATIONS OF SN 2008ha: ADDITIONAL CONSTRAINTS FOR THE PROGENITOR AND EXPLOSION , 2009, 0912.0732.

[7]  J. Vanderplas,et al.  First-year Sloan Digital Sky Survey-II supernova results: consistency and constraints with other intermediate-redshift data sets , 2009, 0910.2193.

[8]  J. Vanderplas,et al.  FIRST-YEAR SLOAN DIGITAL SKY SURVEY-II SUPERNOVA RESULTS: HUBBLE DIAGRAM AND COSMOLOGICAL PARAMETERS , 2009, 0908.4274.

[9]  J. Vanderplas,et al.  FIRST-YEAR SLOAN DIGITAL SKY SURVEY-II (SDSS-II) SUPERNOVA RESULTS: CONSTRAINTS ON NONSTANDARD COSMOLOGICAL MODELS , 2009, 0908.4276.

[10]  Jake Vanderplas,et al.  SNANA: A Public Software Package for Supernova Analysis , 2009, 0908.4280.

[11]  Stefano Casertano,et al.  A REDETERMINATION OF THE HUBBLE CONSTANT WITH THE HUBBLE SPACE TELESCOPE FROM A DIFFERENTIAL DISTANCE LADDER , 2009, 0905.0695.

[12]  W. M. Wood-Vasey,et al.  SN 2008ha: AN EXTREMELY LOW LUMINOSITY AND EXCEPTIONALLY LOW ENERGY SUPERNOVA , 2009, 0902.2794.

[13]  A. Pastorello,et al.  A low-energy core-collapse supernova without a hydrogen envelope , 2009, Nature.

[14]  I. Hook,et al.  THE EFFECT OF PROGENITOR AGE AND METALLICITY ON LUMINOSITY AND 56Ni YIELD IN TYPE Ia SUPERNOVAE , 2008, 0810.0031.

[15]  Mamoru Doi,et al.  THE SLOAN DIGITAL SKY SURVEY-II: PHOTOMETRY AND SUPERNOVA IA LIGHT CURVES FROM THE 2005 DATA , 2008, 0908.4277.

[16]  P. Bonifacio,et al.  The photospheric solar oxygen project. I. Abundance analysis of atomic lines and influence of atmosp , 2008, 0805.4398.

[17]  P. Mazzali,et al.  The Evolution of the Peculiar Type Ia Supernova SN 2005hk over 400 Days , 2007, 0710.3636.

[18]  Y. Wadadekar,et al.  Submitted to ApJS Preprint typeset using L ATEX style emulateapj v. 10/09/06 THE SIXTH DATA RELEASE OF THE SLOAN DIGITAL SKY SURVEY , 2022 .

[19]  A. Pastorello,et al.  The Carbon-rich Type Ic SN 2007gr: The Photospheric Phase , 2007, 0712.1899.

[20]  J. Prieto,et al.  THE SLOAN DIGITAL SKY SURVEY-II SUPERNOVA SURVEY: SEARCH ALGORITHM AND FOLLOW-UP OBSERVATIONS , 2007, 0708.2750.

[21]  J. Kaplan,et al.  THE SLOAN DIGITAL SKY SURVEY-II SUPERNOVA SURVEY: TECHNICAL SUMMARY , 2007, 0708.2749.

[22]  G. E. Brown,et al.  Gamma-Ray Bursts and Hypernova Explosions of Some Galactic Sources , 2007, 0707.4008.

[23]  Gijs Nelemans,et al.  Faint Thermonuclear Supernovae from AM Canum Venaticorum Binaries , 2007, astro-ph/0703578.

[24]  R. Kotak,et al.  ESC and KAIT observations of the transitional type Ia SN 2004eo , 2007, astro-ph/0702565.

[25]  M. Sullivan,et al.  SALT2: using distant supernovae to improve the use of type Ia supernovae as distance indicators , 2007, astro-ph/0701828.

[26]  S. E. Persson,et al.  The Peculiar SN 2005hk: Do Some Type Ia Supernovae Explode as Deflagrations? , 2006, astro-ph/0611295.

[27]  D. Kasen,et al.  Type Ia Supernova Light Curves , 2006, astro-ph/0609562.

[28]  A. Riess,et al.  Improved Distances to Type Ia Supernovae with Multicolor Light-Curve Shapes: MLCS2k2 , 2006, astro-ph/0612666.

[29]  S. Valenti,et al.  Supernova 2002ic: The Collapse of a Stripped-Envelope, Massive Star in a Dense Medium? , 2006, astro-ph/0611125.

[30]  G. Smadja,et al.  Nearby Supernova Factory Observations of SN 2005gj: Another Type Ia Supernova in a Massive Circumstellar Envelope , 2006, astro-ph/0606499.

[31]  Tokyo,et al.  The properties of the 'standard' type Ic supernova 1994I from spectral models , 2006, astro-ph/0604293.

[32]  S. Jha,et al.  Spectropolarimetry of the Peculiar Type Ia Supernova 2005hk , 2006, astro-ph/0603083.

[33]  Copenhagen,et al.  Theoretical light curves for deflagration models of Type Ia supernova , 2006, astro-ph/0603036.

[34]  Walter A. Siegmund,et al.  The 2.5 m Telescope of the Sloan Digital Sky Survey , 2006, astro-ph/0602326.

[35]  S. Jha,et al.  Late-Time Spectroscopy of SN 2002cx: The Prototype of a New Subclass of Type Ia Supernovae , 2006, astro-ph/0602250.

[36]  W. Schmidt,et al.  Thermonuclear supernova simulations with stochastic ignition , 2005, astro-ph/0510427.

[37]  M. Stritzinger,et al.  Constraints on the progenitor systems of type Ia supernovae , 2005, astro-ph/0506415.

[38]  R. Kotak,et al.  The Diversity of Type Ia Supernovae: Evidence for Systematics? , 2004, astro-ph/0411059.

[39]  R. Thomas,et al.  Reading the Spectra of the Most Peculiar Type Ia Supernova 2002cx , 2004, astro-ph/0408130.

[40]  M. Reinecke,et al.  Nucleosynthesis in multi-dimensional SN Ia explosions , 2004, astro-ph/0406281.

[41]  M. Pettini,et al.  [O III] / [N II] as an abundance indicator at high redshift , 2004, astro-ph/0401128.

[42]  S. Jha,et al.  The Luminosity of SN 1999by in NGC 2841 and the Nature of “Peculiar” Type Ia Supernovae , 2001, astro-ph/0105490.

[43]  E. Oran,et al.  Cosmic Explosions in Three Dimensions: Numerical simulations of Type Ia supernovae: deflagrations and detonations , 2004 .

[44]  R. Foley,et al.  Optical Photometry and Spectroscopy of the SN 1998bw–like Type Ic Supernova 2002ap , 2003, astro-ph/0307136.

[45]  A. Filippenko,et al.  Optical Spectra and Light Curves of Supernovae , 2003, astro-ph/0307138.

[46]  S. E. Persson,et al.  An asymptotic-giant-branch star in the progenitor system of a type Ia supernova , 2003, Nature.

[47]  E. Baron,et al.  Detectability of Mixed Unburnt C+O in Type Ia Supernova Spectra , 2003, astro-ph/0303627.

[48]  Caltech,et al.  SN 2002cx: The Most Peculiar Known Type Ia Supernova , 2003, astro-ph/0301428.

[49]  S. Jha,et al.  A Study of the Type II-Plateau Supernova 1999gi and the Distance to its Host Galaxy, NGC 3184 , 2002, astro-ph/0207601.

[50]  M. Reinecke,et al.  Three-dimensional simulations of type Ia supernovae , 2002, astro-ph/0206459.

[51]  Bruno Leibundgut,et al.  From twilight to highlight : the physics of supernovae : proceedings of the ESO/MPA/MPE workshop held at Garching, Germany, 29-31 July 2002 , 2002 .

[52]  A. S. Fruchter,et al.  Timescale Stretch Parameterization of Type Ia Supernova B-Band Light Curves , 2001, astro-ph/0104382.

[53]  Walter A. Siegmund,et al.  The Sloan Digital Sky Survey: Technical Summary , 2000, astro-ph/0006396.

[54]  P. Pinto,et al.  The Physics of Type Ia Supernova Light Curves. I. Analytic Results and Time Dependence , 2000 .

[55]  R. Schommer,et al.  The Reddening-Free Decline Rate Versus Luminosity Relationship for Type Ia Supernovae , 1999, astro-ph/9907052.

[56]  D. Branch,et al.  Ion Signatures in Supernova Spectra , 1998, astro-ph/9809236.

[57]  I. Hook,et al.  Measurements of Ω and Λ from 42 High-Redshift Supernovae , 1998, astro-ph/9812133.

[58]  et al,et al.  The Sloan Digital Sky Survey Photometric Camera , 1998, astro-ph/9809085.

[59]  Gary J. Hill,et al.  Hobby-Eberly Telescope low-resolution spectrograph: optical design , 1998, Astronomical Telescopes and Instrumentation.

[60]  D. Schlegel,et al.  Maps of Dust Infrared Emission for Use in Estimation of Reddening and Cosmic Microwave Background Radiation Foregrounds , 1998 .

[61]  A. Riess,et al.  Observational Evidence from Supernovae for an Accelerating Universe and a Cosmological Constant , 1998, astro-ph/9805201.

[62]  H. Ford,et al.  Final Results from the Hubble Space Telescope Key Project to Measure the Hubble Constant , 1998, astro-ph/9801080.

[63]  D. Schlegel,et al.  Maps of Dust IR Emission for Use in Estimation of Reddening and CMBR Foregrounds , 1997, astro-ph/9710327.

[64]  Alexei V. Filippenko,et al.  Optical spectra of supernovae , 1997 .

[65]  P. Nugent,et al.  Evidence for a High-Velocity Carbon-rich Layer in the Type Ia SN 1990N , 1997 .

[66]  P. Pinto,et al.  The Physics of Type Ia Supernova Light Curves. II. Opacity and Diffusion , 1996, astro-ph/9611195.

[67]  R. Smith,et al.  The morphology of type ia supernovae light curves , 1996, astro-ph/9609063.

[68]  R. Schommer,et al.  The Absolute Luminosities of the Calan/Tololo Type Ia Supernovae , 1996, astro-ph/9609059.

[69]  C. Gouiffes,et al.  The properties of the peculiar type Ia supernova 1991bg — I. Analysis and discussion of two years of observations , 1996, astro-ph/9605178.

[70]  William Press,et al.  A Precise Distance Indicator: Type Ia Supernova Multicolor Light-Curve Shapes , 1996, astro-ph/9604143.

[71]  M. Fukugita,et al.  The Sloan Digital Sky Survey Photometric System , 1996 .

[72]  Chien Y. Peng,et al.  UBVRI Photometry of the Type IC SN 1994I in M51 , 1996 .

[73]  P. Nugent,et al.  Evidence for a Spectroscopic Sequence among Type Ia Supernovae , 1995, astro-ph/9510004.

[74]  Harland W. Epps,et al.  THE KECK LOW-RESOLUTION IMAGING SPECTROMETER , 1995 .

[75]  Nicholas B. Suntzeff,et al.  A Hubble diagram of distant type IA supernovae , 1993 .

[76]  M. Phillips,et al.  The Absolute Magnitudes of Type IA Supernovae , 1993 .

[77]  Jan Peters,et al.  SN 1991bg - A type Ia supernova with a difference , 1993 .

[78]  L. Ho,et al.  The subluminous spectroscopically peculiar type Ia supernova 1991bg in the elliptical galaxy NGC 4374 , 1992 .

[79]  R. Kirshner,et al.  SN 1991T: Further Evidence of the Heterogeneous Nature of Type IA Supernovae , 1992 .

[80]  D. Schlegel,et al.  The peculiar type Ia SN 1991T : detonation of a white dwarf ? , 1992 .

[81]  R. Wade,et al.  The Radial Velocity Curve and Peculiar TiO Distribution of the Red Secondary Star in Z Chamaeleontis , 1988 .

[82]  K. Horne,et al.  AN OPTIMAL EXTRACTION ALGORITHM FOR CCD SPECTROSCOPY. , 1986 .

[83]  J. Wheeler,et al.  Hubble's constant and exploding carbon–oxygen white dwarf models for Type I supernovae , 1985, Nature.

[84]  W. Arnett Type I supernovae. I. Analytic solutions for the early part of the light curve , 1982 .

[85]  D. Branch,et al.  Some statistical properties of type I supernovae. , 1981 .