Masses of ground and isomeric states of in 101 and configuration-dependent shell evolution in odd- A indium isotopes. Xu, X., Liu, J. H., Yuan, C. X., Xing, Y. M., Wang, M., Zhang, Y. H., Zhou, X. H., Litvinov, Y. A., Blaum, K., Chen, R. J., Chen, X. C., Fu, C. Y., Gao, B. S., He, J. J., Kubono, S., Lam, Y. H., Li, H. F., Liu, M. L., Ma, X. W., Shuai, P., Si, M., Sun, M. Z., Tu, X. L., Wang, Q., Xu, H. S., Yan, X. L., Yang, J. C., Yuan, Y. J., Zeng, Q., Zhang, P., Zhou, X., Zhan, W. L., Litvinov, S., Audi, G., Naimi, S., Uesaka, T., Yamaguchi, Y., Yamaguchi, T., Ozawa, A., Sun, B. H., Kaneko, K., Sun, Y., & Xu, F. R. Physical Review C, 100(5):51303, nov, 2019.
Masses of ground and isomeric states of in 101 and configuration-dependent shell evolution in odd- A indium isotopes [link]Paper  doi  abstract   bibtex   
We report first precision mass measurements of the 1/2- isomeric and 9/2+ ground states of In101. The determined isomeric excitation energy continues a smooth trend of odd-A indium isotopes up to the immediate vicinity of N=50 magic number. This trend can be confirmed by dedicated shell-model calculations only if the neutron configuration mixing is considered. We find that the single-particle energies are different for different states of the same isotope. The presented configuration-dependent shell evolution, type-II shell evolution, in odd-A nuclei is discussed for the first time. Our results will facilitate future studies of single-particle neutron states.
@article{xu_masses_2019,
abstract = {We report first precision mass measurements of the 1/2- isomeric and 9/2+ ground states of In101. The determined isomeric excitation energy continues a smooth trend of odd-A indium isotopes up to the immediate vicinity of N=50 magic number. This trend can be confirmed by dedicated shell-model calculations only if the neutron configuration mixing is considered. We find that the single-particle energies are different for different states of the same isotope. The presented configuration-dependent shell evolution, type-II shell evolution, in odd-A nuclei is discussed for the first time. Our results will facilitate future studies of single-particle neutron states.},
annote = {Publisher: American Physical Society},
author = {Xu, X. and Liu, J. H. and Yuan, C. X. and Xing, Y. M. and Wang, M. and Zhang, Y. H. and Zhou, X. H. and Litvinov, Yu A. and Blaum, K. and Chen, R. J. and Chen, X. C. and Fu, C. Y. and Gao, B. S. and He, J. J. and Kubono, S. and Lam, Y. H. and Li, H. F. and Liu, M. L. and Ma, X. W. and Shuai, P. and Si, M. and Sun, M. Z. and Tu, X. L. and Wang, Q. and Xu, H. S. and Yan, X. L. and Yang, J. C. and Yuan, Y. J. and Zeng, Q. and Zhang, P. and Zhou, X. and Zhan, W. L. and Litvinov, S. and Audi, G. and Naimi, S. and Uesaka, T. and Yamaguchi, Y. and Yamaguchi, T. and Ozawa, A. and Sun, B. H. and Kaneko, K. and Sun, Y. and Xu, F. R.},
doi = {10.1103/PhysRevC.100.051303},
issn = {24699993},
journal = {Physical Review C},
month = {nov},
number = {5},
pages = {51303},
title = {{Masses of ground and isomeric states of in 101 and configuration-dependent shell evolution in odd- A indium isotopes}},
url = {https://link.aps.org/doi/10.1103/PhysRevC.100.051303},
volume = {100},
year = {2019}
}

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