87MO 9BE(112SN,X):ISOMER E:XUNDL-1 2023Xi01 202302 87MO c Compiled (unevaluated) dataset from 2023Xi01: Phys. Rev. C 107, 87MO2c 014304 (2023). 87MO c Compiled by G. G~urdal, Jan 26, 2023 87MO c 2023Xi01: Neutron deficient {+87}Mo was produced via projectile 87MO2c fragmentation of primary {+112}Sn beam and studied using Isochronous 87MO3c Mass Spectrometry (IMS). The experiment was performed at the 87MO4c HIRFL-CSR accelerator complex at the Institute of Modern Physics in 87MO5c Lanzhou, China. The primary {+112}Sn{++35} ions were accelerated to a 87MO6c relativistic energy of |J400.88 MeV/u by the main Cooler Storage 87MO7c Ring (CSRm) and impinged on a 10 mm thick {+9}Be target at the 87MO8c entrance of Radioactive Ion Beam Line at Lanzhou (RIBLL2). The 87MO9c fragments emerged from the target were separated in flight with 87MOac RIBLL2 and the experimental Cooler Storage Ring (CSRe). To measure 87MObc the revolution times of the stored ions a tof detector equipped with 87MOcc a carbon foil and a set of multichannel plates were used. Measured: 87MOdc E{-x} of the isomer. Comparison with the shell model calculations. 87MO L 0 7/2+ 14.1 S 3 87MO cL J,T$from the Adopted Levels of {+87}Mo in ENSDF database. 87MO L 310 30 1/2- M 87MO cL E$from the analysis of the shape of the overlapping peaks in the 87MO2cL revolution time spectrum using exponentially modified Gaussian (EMG) 87MO3cL function in 2023Xi01. 87MO cL J$based on the systematics of the J|p of the observed isomers in the 87MO2cL neighboring nuclei in 2023Xi01. The authors of 2023Xi01 states that 87MO3cL the isomeric state is a neutron-hole state.