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Title:
A Spectroscopic Study of Nuclear Processing and the Production of Anomalously Strong Lines in the Crab Nebula
Authors:
MacAlpine, Gordon M.; Ecklund, Tait C.; Lester, William R.; Vanderveer, Steven J.; Strolger, Louis-Gregory
Affiliation:
AA(Department of Physics and Astronomy, Trinity University, San Antonio, TX, USA), AB(Department of Physics and Astronomy, Trinity University, San Antonio, TX, USA), AC(Department of Physics and Astronomy, Trinity University, San Antonio, TX, USA), AD(Department of Physics and Astronomy, Trinity University, San Antonio, TX, USA), AE(Department of Physics and Astronomy, Western Kentucky University, Bowling Green, KY, USA)
Publication:
The Astronomical Journal, Volume 133, Issue 1, pp. 81-88. (AJ Homepage)
Publication Date:
01/2007
Origin:
UCP
AJ Keywords:
nuclear reactions, nucleosynthesis, abundances, Stars: Pulsars: Individual: Alphanumeric: PSR 0531+21, ISM: Supernova Remnants, Stars: Supernovae: Individual: Alphanumeric: SN 1054
DOI:
10.1086/509504
Bibliographic Code:
2007AJ....133...81M

Abstract

We present and discuss correlations for optical and near-infrared (5500-10030 Å) line intensity measurements at many positions in the Crab Nebula. These correlations suggest the existence of gas produced by a range of nuclear processing, from material in which synthesis ended with the CNO cycle, to some helium burning and nitrogen depletion, to regions containing enriched products of oxygen burning. The latter exhibit a gradual, linear rise of [Ni II] emission with increasing argon enrichment, whereas gas with less nuclear processing shows markedly different [Ni II] emission characteristics, including the highest derived abundances. This suggests two origins for stable, neutron-rich nickel in the nebula: a type of ``alpha-rich freeze out'' in the more highly processed material and possibly removal of ions from the neutron star in other regions. In addition, the data indicate that anomalously strong observed [C I] emission comes from broad, low-ionization H+ to H0 transition zones. Although the strongest He I emission could also be enhanced in similar low-ionization gas, correlations between relevant line ratios argue against that interpretation, strengthening the case for an exceptionally high helium mass fraction in some locations.

This paper involves data obtained at the MDM Observatory and at the McDonald Observatory of The University of Texas at Austin.

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