Adam Fisher scite author profile

We present detailed NLTE synthetic spectra of hydrodynamic SNe Ia models. We make no assumptions about the form of the spectrum at the inner boundary. We calculate both Chandrasekhar-mass deflagration models and sub-Chandrasekhar ``helium detonators.'' Gamma-ray deposition is handled in a simple, accurate manner. We have parameterized the storage of energy that arises from the time dependent deposition of radioactive decay energy in a reasonable manner, that spans the expected range. We find that the Chandrasekhar-mass deflagration model W7 of Nomoto etal shows good agreement with the observed spectra of SN 1992A and SN 1994D, particularly in the UV, where our models are expected to be most accurate. The sub-Chandrasekhar models do not reproduce the UV deficit observed in normal SNe Ia. They do bear some resemblance to sub-luminous SNe Ia, but the shape of the spectra (i.e. the colors) are opposite to that of the observed ones and the intermediate mass element lines such as Si II, and Ca II are extremely weak, which seems to be a generic difficulty of the models. Although the sub-Chandrasekhar models have a significant helium abundance (unlike Chandrasekhar-mass models), helium lines are not prominent in the spectra near maximum light and thus do not act as a spectral signature for the progenitor.Comment: submitted to ApJ, 26 pages, 10 figures, uses LaTeX styles aasms4.sty and natbib.sty Also available at: http://www.nhn.ou.edu/~baron

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On the relative frequencies of spectroscopically normal and peculiar type IA supernovae

Branch¹,

Fisher²,

Nugent³

1993

236

196

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Ion Signatures in Supernova Spectra

Hatano

Branch

Fisher

et al. 1999

ASTROPHYS J SUPPL S

129

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A systematic survey of ions that could be responsible for features in the optical spectra of supernovae is carried out. Six different compositions that could be encountered in supernovae are considered. For each composition, the LTE optical depth of one of the strongest optical lines of each ion is plotted against temperature. For each ion that can realistically be considered as a candidate to produce identifiable features in supernova spectra, a sample synthetic spectrum is displayed. The optical depth plots and the synthetic spectra can provide guidance to studies of line identifications in the optical spectra of all types of supernovae during their photospheric phases.Comment: Accepted for a publication in the Astrophysical Journal Supplement Series. Figures and electronic versions of figures 10 may be obtained at: http: //www.nhn.ou.edu/~baron/papers.htm

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On the High‐Velocity Ejecta of the Type Ia Supernova SN 1994D

Hatano

Branch

Fisher

et al. 1999

ApJ

107

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Synthetic spectra generated with the parameterized supernova syntheticspectrum code SYNOW are compared to spectra of the Type Ia SN 1994D that were obtained before the time of maximum brightness. Evidence is found for the presence of two-component Fe II and Ca II features, forming in high velocity (≥ 20, 000 km s −1 ) and lower velocity (≤ 16, 000 km s −1 ) matter. Possible interpretations of these spectral splits, and implications for using early-time spectra of SNe Ia to probe the metallicity of the progenitor white dwarf and the nature of the nuclear burning front in the outer layers of the explosion, are discussed.

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Evidence for a High-Velocity Carbon-rich Layer in the Type I[CLC]a[/CLC] SN 1990N

et al. 1997

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We use a parameterized spectrum-synthesis code to make a direct analysis of a high quality spectrum of the Type Ia SN 1990N that was obtained by Leibundgut et al. 14 days before the time of optical maximum. We suggest that the absorption feature observed near 6040 Å, which has been attributed to blueshifted 6355 of Si II, actually was produced by blueshifted 6580 of C II, in a high-velocity (v Ͼ 26, 000 km s Ϫ1 ) carbon-rich region. Implications for SN Ia explosion models are briefly discussed.

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Adam Fisher

Synthetic Spectra of Hydrodynamic Models of Type Ia Supernovae

On the relative frequencies of spectroscopically normal and peculiar type IA supernovae

Ion Signatures in Supernova Spectra

On the High‐Velocity Ejecta of the Type Ia Supernova SN 1994D

Evidence for a High-Velocity Carbon-rich Layer in the Type I[CLC]a[/CLC] SN 1990N

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