Application of isochronous mass spectrometry for the study of angular momentum population in projectile fragmentation reactions

X. L. Tu, A. Kelic-Heil, Yu. A. Litvinov, Zs. Podolyak, Y. H. Zhang, W. J. Huang, H. S. Xu, K. Blaum, F. Bosch, R. J. Chen, X. C. Chen, C. Y. Fu, B. S. Gao, Z. Ge, Z. G. Hu, D. W. Liu, S. A. Litvinov, X. W. Ma, R. S. Mao, B. Mei, P. Shuai, B. H. Sun, Y. Sun, Z. Y. Sun, P. M. Walker, M. Wang, N. Winckler, J. W. Xia, G. Q. Xiao, Y. M. Xing, X. Xu, T. Yamaguchi, X. L. Yan, J. C. Yang, Y. J. Yuan, Q. Zeng, W. Zhang, H. W. Zhao, T. C. Zhao, X. H. Zhou

Published 2018-11-23Version 1

Isochronous mass spectrometry was applied to measure isomeric yield ratios of fragmentation reaction products. This approach is complementary to conventional gamma-ray spectroscopy in particular for measuring yield ratios for long-lived isomeric states. Isomeric yield ratios for the high-spin I = 19/2 states in the mirror nuclei 53Fe and 53Co are measured to study angular momentum population following the projectile fragmentation of 78Kr at energies of 480A MeV on a beryllium target. The 19/2 state isomeric ratios of 53Fe produced from different projectiles in the literature have also been extracted as a function of mass number difference between projectile and fragment (mass loss). The results are compared to ABRABLA07 model calculations. The isomeric ratios of 53Fe produced using different projectiles suggest that the theory underestimates not only the previously reported dependence on the spin but also the dependence on the mass loss.