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Paper detail

Isospin Mixing and the Cubic Isobaric Multiplet Mass Equation in the Lowest T = 2, A = 32 Quintet

The isobaric multiplet mass equation (IMME) is known to break down in the first T = 2, A = 32 isospin quintet. In this work we combine high-resolution experimental data with state-of-the-art shell-model calculations to investigate isospin mixing as a possible cause for this violation. The experimental data are used to validate isospin-mixing matrix elements calculated with newly developed shell-model Hamiltonians. Our analysis shows that isospin mixing with nonanalog T = 1 states contributes to the IMME breakdown, making the requirement of an anomalous cubic term inevitable for the multiplet.

preprint2022arXivOpen access
M. KamilS. TriambakA. MagilliganA. GarcíaB. A. BrownP. AdsleyV. BildsteinC. BurbadgeA. Diaz VarelaT. FaestermannP. E. GarrettR. HertenbergerN. Y. KheswaK. G. LeachR. LindsayD. J. Marín-LámbarriF. Ghazi MoradiN. J. MukwevhoR. NevelingJ. C. Nzobadila OndzeP. PapkaL. PellegriV. PesudoB. M. RebeiroM. ScheckF. D. SmitH. -F. Wirth
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Open access27 authors1 topic
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M. KamilS. TriambakA. MagilliganA. GarcíaB. A. BrownP. AdsleyV. BildsteinC. BurbadgeA. Diaz VarelaT. FaestermannP. E. GarrettR. HertenbergerN. Y. KheswaK. G. LeachR. LindsayD. J. Marín-LámbarriF. Ghazi MoradiN. J. MukwevhoR. NevelingJ. C. Nzobadila OndzeP. PapkaL. PellegriV. PesudoB. M. RebeiroM. ScheckF. D. SmitH. -F. Wirth

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