Measurement of Excitation Energies in ^26Si using the ^28Si(p,t)^26Si reaction

Details Measurement of Excitation Energies in ^26Si using the ^28Si(p,t)^26Si reaction Measurement of Excitation Energies in ^26Si using the ^28Si(p,t)^26Si reaction

Oct 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002aps..dnp.de007c&link_type=abstract

American Physical Society, 2002 Fall Meeting of the Division of Nuclear , abstract #DE.007

Physics

Scientific paper

The structure of ^26Si just above the proton threshold is the largest remaining uncertainty in the production of the galactic gamma-ray emitter ^26Al, whose characteristic 1.809 MeV gamma ray has been detected with the orbiting gamma-ray telescope COMPTEL/CGRO. The location of two unnatural parity states have been the dominant uncertainty until recently (Phys. Rev. C65, 055801 (2002)). The locations of these states have been confirmed by a high-resolution measurement of the ^28Si(p,t)^26Si reaction at 38 MeV using the Enge split-pole spectrograph at Yale. Spectrum resolution was three times better than ever attained using this reaction (25 keV). Complete data analysis and results will be presented.

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