Unified One-Dimensional Simulations of Gamma-Ray Line Emission from Type Ia Supernovae

@article{Milne2004UnifiedOS,
  title={Unified One-Dimensional Simulations of Gamma-Ray Line Emission from Type Ia Supernovae},
  author={Peter A. Milne and Aimee L. Hungerford and Chris L. Fryer and T. M. Evans and Todd James Urbatsch and Steven E. Boggs and Jordi Isern and Eduardo Bravo and Alina Hirschmann and Shiomi Kumagai and Philip A. Pinto and L. -S. The},
  journal={The Astrophysical Journal},
  year={2004},
  volume={613},
  pages={1101 - 1119}
}
The light curves of Type Ia supernovae (SNe Ia) are powered by gamma rays emitted by the decay of radioactive elements such as 56Ni and its decay products. These gamma rays are downscattered, absorbed, and eventually reprocessed into the optical emission that makes up the bulk of all SN observations. Detection of the gamma rays that escape the expanding star provide the only direct means to study this power source for SN Ia light curves. Unfortunately, disagreements between calculations for the… 
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38 Citations

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References

SHOWING 1-10 OF 64 REFERENCES

X- and Gamma-Ray Signatures of Type IA Supernovae

Using a Monte Carlo code, the hard X-ray continuum and gamma-ray line emissions of various theoretical models of Type Ia supernova explosions are investigated. The influence of the distributions of

Hard X-Rays and Gamma Rays from Type Ia Supernovae

The γ-ray light curves and spectra are presented for a set of theoretical Type Ia supernova (SN Ia) models including deflagration, detonation, delayed detonation, and pulsating delayed detonations of

X-ray and gamma-ray fluxes from SN 1987A

Monte Carlo simulations of gamma-ray transport in several models of the SN 1987A debris are conducted to attempt to fit the gamma-ray line fluxes and Ginga X-ray fluxes from the SN 1987A. The

Gamma-Ray Lines from Asymmetric Supernovae

We present three-dimensional smoothed particle hydrodynamics simulations of supernova explosions from 100 s to 1 yr after core bounce. By extending our modeling efforts to a three-dimensional

Prospects for gamma-ray line observations of individual supernovae

The gamma-ray line emission from individual type I and type II supernovae are studied using numerical simulations and photon propagation codes to predict the flux levels and line shapes. For both

Contribution of Supernova Gamma-Rays to the Gamma-Ray Background Emission

Diffuse γ-ray background emission has been observed by a number of satellites and balloons. The spectrum spreads over a wide range of photon energies, and the emission is almost isotropic. Although

The cosmic gamma-ray background from Type Ia supernovae

We present an improved calculation of the cumulative gamma-ray spectrum of Type Ia supernovae during the history of the universe. We follow Clayton & Ward (1975) in using a few Friedmann models and

Positron Escape from Type Ia Supernovae

We generate bolometric light curves for a variety of Type Ia supernova models at late times, simulating gamma-ray and positron transport for various assumptions about the magnetic field and

SN 1987A gamma-ray line profiles and fluxes

Results for the time dependence of the line profiles and integrated fluxes for the 0.847 and 1.238 MeV gamma rays from the decay of cobalt to excited states of iron are presented for several models

Gamma-rays as probes for the multi-dimensionality of type Ia supernovae

...