Corpus ID: 118731671

Charge and frequency resolved isochronous mass spectrometry in storage rings: First direct mass measurement of the short-lived neutron-deficient $^{51}$Co nuclide

@article{Shuai2014ChargeAF,
  title={Charge and frequency resolved isochronous mass spectrometry in storage rings: First direct mass measurement of the short-lived neutron-deficient \$^\{51\}\$Co nuclide},
  author={Peng Shuai and H. Xu and Xiao-lin Tu and Yaling Zhang and B. H. Sun and Yuri A Litvinov and X. L. Yan and Klaus Blaum and M. Q. Wang and X. H. Zhou and J. J. He and Yang Sun and Kazunari Kaneko and Y J Yuan and Jia-wen Xia and Judith Chun-Hsu Yang and Georges Audi and X. C. Chen and G. B. Jia and Z. G. Hu and X. W. Ma and Rui-shi Mao and B. Mei and Z. Y. Sun and S. T. Wang and Guoqing Xiao and X. Xu and T. Yamaguchi and Yoshitaka Yamaguchi and Y. D. Zang and H. W. Zhao and T. C. Zhao and W. Q. Zhang and W. Zhan},
  journal={arXiv: Nuclear Experiment},
  year={2014}
}
Revolution frequency measurements of individual ions in storage rings require sophisticated timing detectors. One of common approaches for such detectors is the detection of secondary electrons released from a thin foil due to penetration of the stored ions. A new method based on the analysis of intensities of secondary electrons was developed which enables determination of the charge of each ion simultaneously with the measurement of its revolution frequency. Although the mass-over-charge… Expand
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