Detailed nuclear structure studies far from stability |
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Authors: | John L Wood Johannes Schwarzenberg Edward F Zganjar Dubravka Rupnik |
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Institution: | (1) School of Physics, Georgia Tech, 30332 Atlanta, GA, USA;(2) School of Chemistry, Georgia Tech, 30332 Atlanta, GA, USA;(3) Department of Physics and Astronomy, Louisiana State University, 70803 Baton Rouge, LA, USA |
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Abstract: | State-of-the-art spectroscopy of nuclei far from stability has achieved an extraordinary level of sophistication and detail
in the last ten years. In principle, if a state can be populated, it can be characterized by its energy, spin, parity, and
major decay paths. Sometimes its lifetime can be measured. In practice, one is confronted with enormous complexity. To convert
raw spectroscopic data into nuclear structure data involves a complex process of disentangling gamma rays and conversion electrons
into decay schemes. Specifically, coincidence techniques, especially coincidence intensities, play a crucial role in this
process. Recent examples and methods from work done at UNISOR are presented. |
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