Microscopic description of the high-spin yrast spectra in some doubly even zinc, germanium, and selenium isotopes
Author:
Publisher
American Physical Society (APS)
Subject
Nuclear and High Energy Physics
Link
http://harvest.aps.org/v2/journals/articles/10.1103/PhysRevC.22.2612/fulltext
Reference42 articles.
1. Investigation of 65Zn by (p, n) and (p, nγ) experiments
2. Coulomb excitation of 67Zn and core-quasiparticle coupling in nuclei
3. Neutron deficient even-even isotopes of Kr, Se, Ge and pseudo SU3 coupling
4. The decay of 3370As37
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3. Multiple Coulomb excitation experiment of 66 Zn;The European Physical Journal A;2003-10
4. Microscopic Study on Band Structures of76,78Se and82Kr;Journal of the Physical Society of Japan;1992-08-15
5. High-spin yrast levels in doubly even germanium and selenium isotopes: Microscopic study in the variation-after-projection approach;Physical Review C;1986-09-01
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