Your search keyword '"Huang, W.J."' showing total 4 results

1. Improved high-precision mass measurements of mid-shell neon isotopes.

Author

Jacobs, A., Andreoiu, C., Bergmann, J., Brunner, T., Dickel, T., Dillmann, I., Dunling, E., Flowerdew, J., Graham, L., Gwinner, G., Hockenbery, Z., Huang, W.J., Kootte, B., Lan, Y., Leach, K.G., Leistenschneider, E., Lunney, D., Lykiardopoulou, E.M., Monier, V., and Mukul, I.

Subjects

*PENNING trap mass spectrometry, *MASS measurement, *ATOMIC mass, *ISOTOPES, *LASER spectroscopy, *NEON, *ION sources

Abstract

New mass values measured with the TITAN MR-TOF-MS are reported for the short-lived isotopes 24−26Ne, produced at TRIUMF's ISAC facility using a uranium carbide target and cold FEBIAD ion source. A least-squares adjustment within the framework of the Atomic Mass Evaluation was performed and the improved precision of the new mass values is highlighted. The improved mass accuracy in this N = 14 mid-shell region can also point to the refinement in values of the charge radii. By reducing the mass uncertainty of isotopes, their contribution of the mass shift uncertainty in laser spectroscopy can be negated. The work is part of developments for reaching the N = 20 Island of Inversion, where high molecular contamination hinders mass measurements of the neon isotopes. [ABSTRACT FROM AUTHOR]

Published

2023

2. An improvement of isochronous mass spectrometry: Velocity measurements using two time-of-flight detectors.

Author

Shuai, P., Xu, X., Zhang, Y.H., Xu, H.S., Litvinov, Yu. A., Wang, M., Tu, X.L., Blaum, K., Zhou, X.H., Yuan, Y.J., Yan, X.L., Chen, X.C., Chen, R.J., Fu, C.Y., Ge, Z., Huang, W.J., Xing, Y.M., and Zeng, Q.

Subjects

*MASS spectrometry, *VELOCITY measurements, *TIME-of-flight mass spectrometry, *EXOTIC nuclei, *STORAGE rings, *NUCLEAR reactions

Abstract

Isochronous mass spectrometry (IMS) in storage rings is a powerful tool for mass measurements of exotic nuclei with very short half-lives down to several tens of microseconds, using a multicomponent secondary beam separated in-flight without cooling. However, the inevitable momentum spread of secondary ions limits the precision of nuclear masses determined by using IMS. Therefore, the momentum measurement in addition to the revolution period of stored ions is crucial to reduce the influence of the momentum spread on the standard deviation of the revolution period, which would lead to a much improved mass resolving power of IMS. One of the proposals to upgrade IMS is that the velocity of secondary ions could be directly measured by using two time-of-flight (double TOF) detectors installed in a straight section of a storage ring. In this paper, we outline the principle of IMS with double TOF detectors and the method to correct the momentum spread of stored ions. [ABSTRACT FROM AUTHOR]

Published

2016

3. Time-of-flight detectors with improved timing performance for isochronous mass measurements at the CSRe.

Author

Zhang, W., Tu, X.L., Wang, M., Zhang, Y.H., Xu, H.S., Litvinov, Yu. A., Blaum, K., Chen, R.J., Chen, X.C., Fu, C.Y., Ge, Z., Gao, B.S., Hu, Z.G., Huang, W.J., Litvinov, S.A., Liu, D.W., Ma, X.W., Mao, R.S., Mei, B., and Shuai, P.

Subjects

*TIME-of-flight measurements, *NUCLEAR counters, *PERFORMANCE evaluation, *ISOCHRONOUS cyclotrons, *MASS spectrometry, *MAGNETISM

Abstract

Abstract: In isochronous mass spectrometry (IMS) established in heavy-ion storage rings the revolution times of the stored secondary ions should be independent of their velocity spread. However, this isochronous condition is fulfilled only in first order and in a small range of revolution times. To correct for the non-isochronicity an additional measure of the velocity or magnetic rigidity of each stored ion is required. For this purpose two new time-of-flight (TOF) detectors were installed in a straight section of the experimental Cooler Storage Ring CSRe in Lanzhou. The performance of the new time-of-flight (TOF) detectors, which is crucial for the achievable efficiencies and mass resolving power, was significantly improved. The time resolution of the TOF detector in offline tests was . The detector setup was put into operation with a stable beam of 78Kr. [Copyright &y& Elsevier]

Published

2014

4. Masses of short-lived 49Sc, 50Sc, 70As, 73Br and stable 196Hg nuclides.

Author

Kulikov, I., Algora, A., Atanasov, D., Ascher, P., Blaum, K., Cakirli, R.B., Herlert, A., Huang, W.J., Karthein, J., Litvinov, Yu.A., Lunney, D., Manea, V., Mougeot, M., Schweikhard, L., Welker, A., and Wienholtz, F.

Subjects

*PENNING trap mass spectrometry, *MASS spectrometry, *TIME-of-flight mass spectrometry, *NUCLIDES, *MASS spectrometers, *ATOMIC mass

Abstract

Mass measurements of 49,50Sc, 70As, 73Br and 196Hg nuclides produced at CERN's radioactive-ion beam facility ISOLDE are presented. The measurements were performed at the ISOLTRAP mass spectrometer by use of the multi-reflection time-of-flight and the Penning-trap mass spectrometry techniques. The new results agree well with previously known literature values. The mass accuracy for all cases has been improved. [ABSTRACT FROM AUTHOR]

Published

2020