학술논문
First spectroscopy of the Doubly-Magic 78Ni
Document Type
Journal Article
Author
A. Corsi; A. Delbart; A. Gillibert; A. Gottardo; A. Obertelli; A. Peyaud; C. Louchart; C. Péron; C. Santamaria; D. Calvet; D. Steppenbeck; D. Suzuki; E. Şahin; E.C. Pollacco; F. Browne; F. Château; F. Giacoppo; G. Authelet; G.L. Stefan; H. Baba; H. Otsu; H. Sakurai; H. Wang; J. Lee; J. Wu; J.-M. Gheller; J.-Y. Roussé; K. Hadynska-Klek; K. Matsui; K. Yoneda; L. Olivier; L.X. Chung; M. Lettmann; M. Matsushita; M. Niikura; M. Sasano; P. Doornenbal; P.-A. Söderström; R. Lozeva; R. Taniuchi; S. Franchoo; S. Koyama; S. Momiyama; S. Nishimura; S. Ota; T. Isobe; T. Miyazaki; T. Motobayashi; T. Sumikama; T. Uesaka; V. Lapoux; V. Werner; Y. Kubota; Y. Shiga; Z. Dombradi; Z. Korkulu; Z. Patel; Z. Xu; Zs. Vajta
Source
Meeting Abstracts of the Physical Society of Japan. 2017, :316
Subject
Language
Japanese
ISSN
2189-0803
Abstract
Excited states of ^78^Ni has been investigated at the RIBF by measuring their de-excitation !LaTeX$\gamma$-rays after one and two proton knock-out reactions from ^79^Cu and ^80^Zn beams, respectively, selected in the BigRIPS fragment separator. To achieve a high !LaTeX$\gamma$-ray yield, the detection system is comprised of a 10 cm-thick liquid hydrogen target with a recoil proton tracking system MINOS and a large NaI(Tl) based !LaTeX$\gamma$-ray detection array DALI2. In this presentation, the structure of ^78^Ni will be discussed with comparing the deduced exclusive reaction cross-sections to the reaction models combined with large scale shell model calculations.