Improved <i>Bρ</i>-defined isochronous mass spectrometry for mass measurements of exotic nuclei
he technique of B-defined isochronous mass spectrometry (B-IMS), established at a storage ring, serves as a valuable tool for determining the masses of short-lived nuclei. In the previous B-IMS experiments, the effects of magnetic field drifts have to be corrected in order to improve the mass resolving power of B-IMS [Eur. Phys. J. A 59, 27 (2023)]. The correction procedures are complicated and require multiple reference ions with well-known masses in each injection, which may not be the cases in the measurements of exotic nuclei with tiny production yields. In this study, we propose a novel approach of B-IMS that requires only one reference ion for mass determination in an individual injection, avoiding the tedious and complicated correction procedures. This approach achieves the mass precision comparable to that of previous B-IMS results, and is approved to be suitable for future mass measurements of exotic nuclei with extremely low production yields.
Luo, Mr. Yinfang、Lv, Mr. Jiahao、Xing, Dr. Yuan-ming、Zhang, Prof. Yuhu、Zhang, Mr. Min、Wang, Prof. Meng、Litvinov, Prof. Yuri、Zhou, Prof. Xiaohong 周小红
Institute of Modern Physics Chinese Academy of Sciences;University of the Chinese Academy of SciencesInstitute of Modern Physics Chinese Academy of SciencesInstitute of Modern Physics Chinese Academy of SciencesGSI Helmholtz Center for Heavy Ion ReserachInstitute of Modern Physics Chinese Academy of Sciences
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Storage ringi>Bρ</i>-defined isochronous mass spectrometryouble time-of-flight(TOF) detectorsNuclide mass measurement
Luo, Mr. Yinfang,Lv, Mr. Jiahao,Xing, Dr. Yuan-ming,Zhang, Prof. Yuhu,Zhang, Mr. Min,Wang, Prof. Meng,Litvinov, Prof. Yuri,Zhou, Prof. Xiaohong 周小红.Improved <i>Bρ</i>-defined isochronous mass spectrometry for mass measurements of exotic nuclei[EB/OL].(2025-08-11)[2025-08-14].https://chinaxiv.org/abs/202508.00008.点此复制
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