@article{PhysRevC.104.029901,

title = {Erratum: Probing isospin symmetry in the  ( 50 Fe , 50 Mn , 50 Cr )  isobaric triplet via electromagnetic transition rates},

author = {M. M. Giles and B. S. Nara Singh and L. Barber and D. M. Cullen and M. J. Mallaburn and M. Beckers and A. Blazhev and T. Braunroth and A. Dewald and C. Fransen and A. Goldkuhle and J. Jolie and F. Mammes and C. Müller-Gatermann and D. Wölk and K. O. Zell and S. M. Lenzi and A. Poves},

url = {https://link.aps.org/doi/10.1103/PhysRevC.104.029901},

doi = {10.1103/PhysRevC.104.029901},

year  = {2021},

date = {2021-08-01},

urldate = {2021-08-01},

journal = {Phys. Rev. C},

volume = {104},

pages = {029901},

publisher = {American Physical Society},

abstract = {The published B (E2↓: 2+→ 0+) value of 237 (8) e2fm4 for 50Mn in this paper was obtained by using the measured lifetime value of the first 2+ state in 50Mn and the relative intensities of 64.1 (12) and 100 (2) for the 149-and 800-keV γ decays, respectively, taken from a table in Ref.[1]. With this erratum, we clarify that a choice was made in 2018 to consider the latest γ-ray intensities available and obtain the M (E2) value for the 2+→ 0+ decay in 50Mn. Here, we consider the current evaluated relative γ-ray intensities given in the National Nuclear Data Center (NNDC)[2], ie, 100 (9) and 64 (8) for the 149-and 800-keV γ decays, respectively. This new analysis lowers the data point for 50Mn given in this paper by 20% with a value of 28 efm2 as shown in Fig. 1 (green square).},

keywords = {isospin symmetry},

pubstate = {published},

tppubtype = {article}

}