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Low Carbon Abundance in Type Ia Supernovae
We investigate the quantity and composition of unburned material in theouter layers of three normal Type Ia supernovae (SNe Ia): 2000dn,2002cr, and 2004bw. Pristine matter from a white dwarf progenitor isexpected to be a mixture of oxygen and carbon in approximately equalabundance. Using near-infrared (NIR, 0.7-2.5 μm) spectra, we findthat oxygen is abundant, while carbon is severely depleted with lowupper limits in the outer third of the ejected mass. Strong featuresfrom the O I line at λrest=0.7773 μm are observedthrough a wide range of expansion velocities~(9-18)×103 km s-1. This large velocitydomain corresponds to a physical region of the supernova with a largeradial depth. We show that the ionization of C and O will besubstantially the same in this region. C I lines in the NIR are expectedto be 7-50 times stronger than those from O I, but there is onlymarginal evidence of C I in the spectra and none of C II. We deduce thatfor these three normal SNe Ia, oxygen is more abundant than carbon byfactors of 102-103. Mg II is also detected in avelocity range similar to that of O I. The presence of O and Mg combinedwith the absence of C indicates that for these SNe Ia, nuclear burninghas reached all but the extreme outer layers; any unburned material musthave expansion velocities greater than 18×103 kms-1. This result favors deflagration to detonation transition(DD) models over pure deflagration models for SNe Ia.
| Near-Infrared Spectra of Type Ia Supernovae
We report near-infrared (NIR) spectroscopic observations of 12``branch-normal'' Type Ia supernovae (SNe Ia) that cover the wavelengthregion from 0.8 to 2.5 μm. Our sample more than doubles the number ofSNe Ia with published NIR spectra within 3 weeks of maximum light. Theepochs of observation range from 13 days before maximum light to 18 daysafter maximum light. A detailed model for a Type Ia supernovae is usedto identify spectral features. The Doppler shifts of lines are measuredto obtain the velocity and thus the radial distribution of elements. TheNIR is an extremely useful tool to probe the chemical structure in thelayers of SNe Ia ejecta. This wavelength region is optimal for examiningcertain products of the SNe Ia explosion that may be blended or obscuredin other spectral regions. We identify spectral features from Mg II, CaII, Si II, Fe II, Co II, Ni II, and possibly Mn II. We find noindications for hydrogen, helium, or carbon in the spectra. The spectralfeatures reveal important clues about the physical characteristics ofSNe Ia. We use the features to derive upper limits for the amount ofunburned matter, to identify the transition regions from explosivecarbon to oxygen burning and from partial to complete silicon burning,and to estimate the level of mixing during and after the explosion.Elements synthesized in the outer layers during the explosion appear toremain in distinct layers. That provides strong evidence for thepresence of a detonation phase during the explosion as it occurs indelayed detonation or merger models. Mg II velocities are found toexceed 11,000-15,000 km s-1, depending on the individual SNeIa. That result suggests that burning during the explosion reaches theoutermost layers of the progenitor and limits the amount of unburnedmaterial to less than 10% of the mass of the progenitor. Small residualsof unburned material are predicted by delayed detonation models but areinconsistent with pure deflagration or merger models. Differences in thespectra of the individual SNe Ia demonstrate the variety of theseevents.
| Classifications of the Host Galaxies of Supernovae
Classifications on the DDO system are given for the host galaxies of 177supernovae (SNe) that have been discovered since 1997 during the courseof the Lick Observatory Supernova Search with the Katzman AutomaticImaging Telescope. Whereas SNe Ia occur in all galaxy types, it isfound, at a high level of statistical confidence, that SNe Ib, Ic, andII are strongly concentrated in late-type galaxies. However, attentionis drawn to a possible exception provided by SN 2001I. This SN IInoccurred in the E2 galaxy UGC 2836, which was not expected to harbor amassive young supernova progenitor.
| Supernova 2000dn in IC 1468
IAUC 7499 available at Central Bureau for Astronomical Telegrams.
| Supernova 2000dn in IC 1468
IAUC 7498 available at Central Bureau for Astronomical Telegrams.
| Accurate Positions for MCG Galaxies
We have measured accurate celestial coordinates for 4741 extragalacticobjects, primarily drawn from a list of MCG galaxies with no recentlypublished accurate positions. The standard deviations in the newpositions depend slightly on the measurement method but are on the orderof 1.0" to 1.2". Standard deviations in the original MCG positions areconfirmed to be at the 1.5′-2.0′ level. These new positionswere integrated into NED in 1997 December.
| The Southern Sky Redshift Survey
We report redshifts, magnitudes, and morphological classifications for5369 galaxies with m_B <= 15.5 and for 57 galaxies fainter than thislimit, in two regions covering a total of 1.70 sr in the southerncelestial hemisphere. The galaxy catalog is drawn primarily from thelist of nonstellar objects identified in the Hubble Space TelescopeGuide Star Catalog (GSC). The galaxies have positions accurate to ~1"and magnitudes with an rms scatter of ~0.3 mag. We compute magnitudes(m_SSRS2) from the relation between instrumental GSC magnitudes and thephotometry by Lauberts & Valentijn. From a comparison with CCDphotometry, we find that our system is homogeneous across the sky andcorresponds to magnitudes measured at the isophotal level ~26 magarcsec^-2. The precision of the radial velocities is ~40 km s^-1, andthe redshift survey is more than 99% complete to the m_SSRS2 = 15.5 maglimit. This sample is in the direction opposite that of the CfA2; incombination the two surveys provide an important database for studies ofthe properties of galaxies and their large-scale distribution in thenearby universe. Based on observations obtained at Cerro TololoInter-American Observatory, National Optical Astronomy Observatories,operated by the Association of Universities for Research in Astronomy,Inc., under cooperative agreement with the National Science Foundation;Complejo Astronomico El Leoncito, operated under agreement between theConsejo Nacional de Investigaciones Científicas de laRepública Argentina and the National Universities of La Plata,Córdoba, and San Juan; the European Southern Observatory, LaSilla, Chile, partially under the bilateral ESO-ObservatórioNacional agreement; Fred Lawrence Whipple Observatory;Laboratório Nacional de Astrofísica, Brazil; and the SouthAfrican Astronomical Observatory.
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