Recent Precision Mass Measurements at ISOLTRAPHYBRID

The ISOLTRAP experiment [1] is a multi-ion-trap mass spectrometer located at ISOLDE/CERN dedicated to high-precision mass measurements of artificially produced, short-lived, exotic radionuclides far from stability. ISOLTRAP employs multi-reflection time-of-flight and Penning-trap mass spectrometry for absolute and relative atomic mass measurements.
Following Einstein's famous mass-energy equivalence, the measured masses can be related to nuclear binding energies which reflect the underlying interactions and structure in the nucleus. Knowledge of the binding energies therefore allows the study of nuclear structure and nuclear astrophysics while precise mass measurements have also applications in fundamental physics such as neutrino or weak interaction studies.
This contribution will highlight recent mass measurements at ISOLTRAP with a focus on the neutron-deficient ^96,97,98Cd ground states in vicinity of the self-conjugate doubly-magic ¹⁰⁰Sn and the high-lying 25/2+ isomer ⁹⁷ⁿCd as well as the first mass measurements of the neutron-rich ^209,210,212Hg.
In addition, recent technical developments at ISOLTRAP, such as the first online experiments using a linear Paul trap for mass-selective re-trapping [2] and a temperature stabilization system for the multi-reflection time-of-flight mass spectrometer will be presented, which pave the way for mass measurements of more exotic nuclides at ISOLDE.

[1] Lunney, D. et al., J. Phys. G: Nucl. Part. Phys. 44, 064008 (2017)
[2] Dickel, T. et al., J. Am. Soc. Mass Spectrom. 28, 1079 (2017)

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